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16 Models

Name Other Names Strain Name Genetic Background Gene Mutation Modification Info Modification Disease Neuropathology Behavior/Cognition Other Phenotype Availability Primary Paper Visualization
Mouse Models (16)
ΔNLS4; tTA/TDP-ΔNLS, TDP-43-ΔNLS, tTA/ΔNLS B6;C3-Tg(tetO-TARDBP*)4Vle/J Transgene injected into fertilized eggs from C57BL/6J x C3HeJ. TARDBP These bigenic mice use the CAMKIIα promoter to drive expression of tetracycline transactivator (tTA) in forebrain neurons. The responder transgene is wild-type human TDP-43 minus the nuclear localization signal (NLS). Human TDP-43 is expressed constitutively unless suppressed by doxycycline. TARDBP: Transgenic Amyotrophic Lateral Sclerosis, Frontotemporal Dementia Severe neuronal loss and gliosis in the dentate gyrus and deep cortical layers. Only very rare cytoplasmic aggregates of TDP-43 despite high levels of cytosolic protein. Degeneration of the corticospinal tract, but no lower motor neuron loss or muscle atrophy. A variety of motor, cognitive, and social deficits, including abnormal clasping response, impaired coordination on the Rotarod, decreased grip strength, impaired recognition and spatial memory, and decreased social behavior. Cognitive and motor impairments largely reversible in young mice following short-term transgene suppression. Downregulation of endogenous mouse TDP-43. No change in mortality up to 7 months of age. Mendelian ratios of offspring. The Jackson Lab: Stock# 014650; Live Igaz et al., 2011 Yes
<p>-</p>, <p>rNLS8</p>, <p>regulatable NLS</p> B6;C3-Tg(NEFH-tTA)8Vle Tg(tetO-TARDBP*)4Vle/J NEFH-tTA mice and tetO-hTDP-43ΔNLS line 4 mice were maintained on a mixed C57BL/6J x C3HeJ background. TARDBP These bigenic mice are the progeny of NEFH-tTA transgenic mice, in which the neurofilament heavy chain promoter drives expression of tetracycline transactivator (tTA), and tetO-hTDP-43ΔNLS (line 4) mice, which express a form of human TDP-43 lacking the nuclear localization signal in a tTA-dependent manner. TARDBP: Transgenic Amyotrophic Lateral Sclerosis, Frontotemporal Dementia Widespread cytoplasmic inclusions of TDP-43 in the brain and spinal cord. Ubiquitin-positive inclusions, loss of endogenous mouse nuclear TDP-43, cortical atrophy, motor neuron loss, astrogliosis, and NMJ denervation. A variety of motor impairments, including hindlimb clasping, fine tremor in forelimb and/or hindlimb, progressive loss of grip strength, and decline in coordinated movement and balance. Progressive decrease in body mass from a peak two weeks off dox. Atrophy of hindlimb muscles at end-stage. Premature death (median survival 10.3 weeks off dox). Available through The Jackson Lab as single transgenics: Stock# 025397 and Stock# 014650; Live. See also double transgenic Stock# 028412; Live Walker et al., 2015 Yes
<p>-</p>, <p>ΔNLS-FUS x TARDBP</p>, <p>deltaNLS-FUS x TAR4</p> C57Bl/6J FUS, TARDBP FUS ΔNLS A cross between the ΔNLS-FUS and TDP-43(WT) mice. The ΔNLS-FUS line contains a transgene expressing myc-tagged human FUS lacking the nuclear localization signal, driven by the Thy1.2 promoter. The TDP-43(WT) line contains a transgene that encodes wild-type human TARDBP, driven by the Thy-1 promoter. FUS: Transgenic; TARDBP: Transgenic Amyotrophic Lateral Sclerosis The motor cortex exhibited gliosis, a loss of neurons, and DNLS-FUS aggregates positive for ubiquitin and p62.  Progressive motor impairments by 8 weeks. Mice demonstrated tremors, limb clasping, gait abnormalities, as well as impaired performance on the Rotarod and hanging wire test. Reduced lifespan. Available through Daisuke Ito. Shiihashi et al., 2016 Yes
<p>-</p>, <p>Prp-TDP43<sup>A315T</sup></p> B6.Cg-Tg(Prnp-TARDBP*A315T)95Balo/J C57BL/6J x CBA mice backcrossed to C57BL/6J. TARDBP TARDBP A315T This transgenic mouse expresses full-length human TARDBP with an N-terminal Flag tag and the A315T mutation. The transgene is driven by the mouse prion protein (PrP) promoter. TARDBP: Transgenic Amyotrophic Lateral Sclerosis Minimal motor neuron loss in the spinal cord and cortex (but see Espejo-Porras et al., 2015 and Zhang et al., 2016). Ubiquitin-positive aggregates in upper and lower motor neurons. Rare TDP-43 aggregates. Astrocytosis in spinal cord and cortical layer V. Hyperexcitability of somatostatin interneurons. Axonal degeneration and ~ 20% loss of NMJ innervation (gel diet). Variable. Gait abnormalities, and impaired performance on the Rotarod. Also deficits in radial arm water maze, not due to deficits in swimming speed. Behavior potentially confounded by gut phenotype.  Severe dysfunction in the intestinal tract involving degeneration of neurons in the colon resulting in reduced motility though the ileocaecal area. GI obstruction is the likely cause of death unless the diet is modified with soft food or gel diet. The Jackson Lab: Stock# 010700; Live Wegorzewska et al., 2009, Hatzipetros et al., 2014 Yes
<p>-</p>, <p>Baloh’s TDP-43</p>, <p>C57BL/6-CBA TDP-43 A315T</p> The Prp-TDP43A315T transgene was introduced into oocytes from C57BL/6J x CBA mice. TARDBP TARDBP A315T Transgene encodes full-length, human, mutant TARDBP with the A315T mutation and an N-terminal Flag tag. The mouse prion protein (PrP) promoter drives transgene expression. TARDBP: Transgenic Amyotrophic Lateral Sclerosis Upper and lower motor neuron loss. Cytoplasmic aggregates of ubiquitinated proteins in motor neurons. Cortical gliosis. No cytoplasmic aggregates of TDP-43. Gait abnormalities around three months, developing into a characteristic “swimming gait” by four to five months. Born at normal Mendelian ratios. Grossly normal up to three months. Muscle pathology at end-stage, including atrophic muscle fibers. Generally milder phenotypes in females. No longer available on a C57BL/6J x CBA background Wegorzewska et al., 2009 Yes
Transgene injected into C3H x C57Bl/6 embryos and then crossed with C57Bl/6. TARDBP TARDBP A315T Full-length human TDP-43 with the A315T mutation introduced by site-directed mutagenesis. The transgene is driven by the endogenous human promoter. TARDBP: Transgenic Amyotrophic Lateral Sclerosis, Frontotemporal Dementia Cytoplasmic inclusions of TDP-43, axonal changes, gliosis, no overt neuronal loss or loss of axons. Increased levels of cytotoxic 25 kDA C-terminal fragment of TDP-43. Age-associated cognitive and motor deficits as measured by the passive avoidance test and the Rotarod. Normal lifespan and fertility. Available through Jean-Pierre Julien Swarup et al., 2011 Yes
line 23 STOCK Tg(Prnp-TARDBP*A315T)23Jlel/J Transgene injected into fertilized hybrid B6SJLF1oocytes. Founders bred with CD1 to create hybrid CD1 and B6SJLF. TARDBP TARDBP A315T Transgene encodes full-length human TDP-43 with the A315T mutation. The mouse prion protein (Prp) promoter drives transgene expression. TARDBP: Transgenic Amyotrophic Lateral Sclerosis, Frontotemporal Dementia No overt neuronal loss in the brain or spinal cord. Ubiquitin-positive cytoplasmic inclusions in neurons of the ventral horn and brainstem. Astrocytosis. Cytoplasmic aggregates of TDP-43 are largely absent, although some phospho-TDP-43 inclusions at end-stage. Progressive motor impairment characterized by weakness, a decline in grip strength, and reduction in stride length. Weakness was usually more pronounced in the hindlimbs. Prior to motor deficits, mice exhibit increased fat storage, decreased lean muscle mass, and larger adipocytes in white fat. The Jackson Lab: Stock# 016143; Cryopreserved Stallings et al., 2010 Yes
Transgene injected into C3H x C57Bl/6 embryos. Founders backcrossed with C57Bl/6. TARDBP TARDBP G348C Full-length human TDP-43 with the G348C mutation introduced by site-directed mutagenesis. The transgene is driven by the endogenous human TARDBP promoter. TARDBP: Transgenic Amyotrophic Lateral Sclerosis, Frontotemporal Dementia Cytoplasmic inclusions of TDP-43 in neurons, axonal changes, denervated NMJs, gliosis, no overt neuronal loss or loss of axons. Increased levels of cytotoxic 25 kDA C-terminal fragment of TDP-43. Age-associated cognitive and motor deficits as measured by the passive-avoidance test, the Barnes maze, and the Rotarod. Impaired recovery after crush injury to the sciatic nerve (e.g., delayed recovery of motility and reduced axon regrowth). Normal lifespan and fertility. Available through Jean-Pierre Julien Swarup et al., 2011 Yes
<p>-</p>, <p>TDP-43 M337V PrP (line 4)</p> C57BL/6-Tg(Prnp-TARDBP*M337V)4Ptrc/J Transgene injected into fertilized C57BL/6 oocytes. Founders bred with B6. TARDBP TARDBP M337V Transgene expresses full-length human TARDBP with the M337V mutation, driven by the mouse prion protein (PrP) promoter. TARDBP: Transgenic Amyotrophic Lateral Sclerosis, Frontotemporal Dementia No overt neuronal death. Microgliosis and astrogliosis. Abnormal mitochondria in the form of eosinophilic aggregates in spinal motor neurons. Widespread ubiquitination and accumulation of phospho-tau. Body tremors and gait difficulties before one month of age, leading to a “dragging” gait. An inability to right themselves precipitating euthanasia around one to two months of age. Reduced brain and body weight compared with non-Tg littermates. The Jackson Lab: Stock# 017604; Cryopreserved Xu et al., 2011 Yes
Mt-TAR6/6 Transgene injected into BL6/SJL oocytes. Founders crossed to C57BL6/J. TARDBP TARDBP M337V The Thy-1.2 promoter drives expression of a transgene encoding human TARDBP with the M337V mutation. TARDBP: Transgenic Amyotrophic Lateral Sclerosis, Frontotemporal Dementia Neuronal loss in cortical layer V motor neurons, spinal anterior horn motor neurons, CA regions of the hippocampus, and thalamic neurons. Astrogliosis and microgliosis. Diffuse cytoplasmic ubiquitin in cortical and spinal motor neurons and hippocampus, but rare overt inclusions. Deformed mitochondria and fission deficits. Progressive motor impairment, involving a hunched posture, muscle twitches, and reduced mobility. Impaired Rotarod performance. Complete paralysis and premature death. Postnatal growth retardation and weight loss. Transgene induced downregulation in endogenous TDP-43. Increased caspase-3 expression. Ultrastructural mitochondria abnormalities. Unknown Janssens et al., 2013 Yes
Transgene introduced into C57Bl6/C3H oocytes. Founders crossed to C57/Bl6 for a minimum of four generations. TARDBP TARDBP Q331K Full-length human TDP-43 with the Q331K mutation driven by the mouse prion protein (Prp) promoter. TARDBP: Transgenic Amyotrophic Lateral Sclerosis, Frontotemporal Dementia Age-dependent lower motor loss, gliosis, NMJ abnormalities and loss. No TDP-43 aggregates or cytoplasmic mislocalization. A variety of motor impairments starting around 3 months of age including tremor, abnormal hindlimb clasping, decreased Rotarod performance, and a later decrease in grip strength. Unknown Arnold et al., 2013 Yes
<p>Elliott</p>, <p>WT TDP-43 (line 4)</p> B6SJL-Tg(Prnp-TARDBP)4Jlel/J Transgene injected into B6SJLF1 oocytes. Founders crossed with CD1 mice. TARDBP Transgene expressing full-length, wild-type, human TDP-43 driven by the mouse prion protein (Prp) promoter. Transgene integrated on X chromosome. TARDBP: Transgenic Amyotrophic Lateral Sclerosis No overt neuronal loss in the brain or spinal cord.  Progressive motor impairment (variable penetrance) starting with external rotation of one hind limb followed by bilateral weakness and low muscle tone. Relatively high TDP-43 expression in skeletal muscle. Myopathy, including variable muscle fiber size and disorganization of the muscle architecture. Ubiquitin-positive inclusions in skeletal muscle cells. Status of original hybrid unknown. This model is available on a B6SJL background through The Jackson Lab: Stock# 016201; Cryopreserved Stallings et al., 2010 Yes
<p>Julien model</p>, <p>Wild-type TDP-43</p> Transgene injected into C3H x C57Bl/6 embryos. Founders crossed with C57Bl/6. TARDBP Full-length, wild-type, human TDP-43 driven by the endogenous human promoter. TARDBP: Transgenic Amyotrophic Lateral Sclerosis, Frontotemporal Dementia Some denervated NMJs, gliosis (microgliosis and astrogliosis), no overt neuronal loss or loss of axons. Mostly nuclear expression of TDP-43. Age-associated cognitive and motor deficits as measured by the passive avoidance test, Barnes maze, and Rotarod. Impaired recovery following crush injury to the sciatic nerve (e.g., delayed recovery of motility, reduced axon regrowth). Normal lifespan and fertility. Not available: extinct Swarup et al., 2011 Yes
<p>-</p>, <p>WT-TAR4/4</p>, <p>WT-TAR4</p> B6;SJL-Tg(Thy1-TARDBP)4Singh/J Transgene introduced into BL6/SJL oocytes. Founders crossed to C57BL6/J. TARDBP Transgene encodes wild-type human TARDBP, driven by the murine Thy-1 promoter. The transgene integrated at locus 6qB3 in the mouse genome and does not interrupt any known gene. TARDBP: Transgenic Amyotrophic Lateral Sclerosis, Frontotemporal Dementia Neuronal loss in the brain and spinal cord, including anterior cortex, CA3 hippocampus, Purkinje cells, and spinal cord. Astrogliosis and microgliosis especially in the anterior cortex. Widespread diffuse ubiquitin in neurons of the brain and spinal cord, including cytoplasmic and nuclear inclusions, some co-labeling for TDP-43. Progressive motor impairment, starting at postnatal day 14, with an abnormal hindlimb reflex. Gait abnormalities, including reduced stride length and impaired performance on the accelerating Rotarod. Quick progression to muscle fasciculation’s and spasms, followed by paralysis and premature death. Elevated anxiety at a young age. Size and weight of homozygotes lag behind non-Tg and hemizygous littermates. The Jackson Lab: Stock# 012836; Cryopreserved. The CRO Scantox Neuro offers research services with this model. Wils et al., 2010 Yes
<p>-</p>, <p>Wild-type TDP-43 transgenic (line 3C)</p>, <p>TDP-43<sub>PrP</sub></p> C57BL/6-Tg(Prnp-TARDBP)3cPtrc/J Transgene injected into fertilized C57BL/6 oocytes. Founders bred with B6. TARDBP Transgene expresses wild-type human TARDBP driven by the mouse prion protein (Prp) promoter. TARDBP: Transgenic Amyotrophic Lateral Sclerosis, Frontotemporal Dementia No overt neuronal death, but degenerating neurites and axons, gliosis, and vacuolization of myelin. Abnormal aggregates of mitochondria present as eosinophilic aggregates in spinal motor neurons. Dendritic spine loss in the hippocampus. Homozygous mice develop body tremors and gait impairments leading to a “swimming gait” and severe motor deficits requiring euthanasia. Early reductions in body and brain weight in homozygous mice. Reduced dendritic spines in the hippocampus and lower mRNA levels of synaptic markers. The Jackson Lab: Stock# 016608; Cryopreserved Xu et al., 2010 Yes
<p>-</p>, <p>WT-TAR6/6</p>, <p>TAR6/6</p> Transgene introduced into BL6/SJL oocytes. Founders crossed to C57BL6/J. TARDBP Transgene encodes wild-type human TARDBP, driven by the murine Thy-1.2 promoter. TARDBP: Transgenic Amyotrophic Lateral Sclerosis, Frontotemporal Dementia Accumulation of transgenic and C-terminal fragments of TDP-43 in the cytoplasm, upper and lower motor neuron loss, astrogliosis, and microgliosis. Motor impairments as early as 6 weeks, reduced anxiety and disturbed nest-building behavior. Early death—average survival is 6.7 months. The CRO Scantox Neuro offers research with TAR6/6 mice. Wils et al., 2010, Scherz et al., 2018 Yes

16 Visualizations

ALS-related Research Models

Sex-specific differences

  • Cortical Neuron Loss
  • Lower Motor Neuron Loss
  • Cytoplasmic Inclusions
  • Gliosis
  • NMJ Abnormalities
  • Muscle Atrophy
  • Motor Impairment
  • Body Weight
  • Premature Death

hTDP-43ΔNLS

  • Observed
  • Absent
  • Absent
  • Observed
  • No Data
  • Absent
  • Observed
  • No Data
  • Absent

Severe neuronal degeneration in the dentate gyrus and deep layers of the neocortex. Other regions, such as the hippocampal CA1 subfield and olfactory bulb, were relatively resistant to neurodegeneration. Approximately 50 percent of dentate gyrus neurons were lost one month after the transgene was activated.

Not observed.

High levels of cytosolic TDP-43 but only very rare aggregates (observed in less than 1 percent of cortical neurons and even rarer in other brain regions, such as the hippocampus and striatum).

Severe astrogliosis and microgliosis in areas affected by neurodegeneration, including cortical and hippocampal regions, as well as the corticospinal tract.

Unknown.

Not observed.

Spastic motor impairment indicated by an abnormal clasping response as early as one week after transgene induction. A variety of motor deficits develop by one month after transgene induction, including impaired coordination on the Rotarod and decreased grip strength.

Unknown.

Not observed.

NEFH-tTA x hTDP-43ΔNLS

  • Observed
  • Observed
  • Observed
  • Observed
  • Observed
  • Observed
  • Observed
  • Observed
  • Observed

Decreased cortical thickness indicative of neuronal degeneration beginning at four weeks off dox. By end stage, rNLS8 mice had significantly smaller brains than non-Tg littermates.

rNLS8 lost motor neurons in the lumbar spinal cord by six weeks off dox.

Cytoplasmic inclusions of TDP-43 occur as early as one week off dox in neurons in the brain. Inclusions accumulate over time and are present in many brain regions, including the motor cortex. TDP-43 inclusions are relatively rare in the spinal cord. Ubiquitin-positive inclusions are also seen.

Astrogliosis develops in many brain regions, including layer V of the motor cortex.

Denervation of the hindlimb muscle tibialis anterior was detectable by four weeks off dox, that is, two weeks prior to detectable loss of lower motor neurons.

At end-stage, rNLS8 mice exhibit gross muscle atrophy of the hindlimb muscles tibialis anterior and gastrocnemius.

rNLS8 mice develop a variety of motor impairments, starting with a deficit in hindlimb clasping and a fine tremor in the forelimb and/or hindlimb. They also develop progressive loss of grip strength (as measured by the wire-hang test) and a progressive decline in coordinated movement and balance (as measured by the accelerating Rotarod).

Body mass peaked at approximately 7 weeks of age (i.e., two weeks off dox) and then progressively dropped. Excessive loss of body weight (>30% decrease from peak weight) often defined end-stage.

rNLS8 mice die prematurely. They reach end-stage 8-18 weeks off dox, with a median survival of 10.3 weeks off dox.

TARDBP (A315T) (congenic)

  • No Data
  • Absent
  • Observed
  • Observed
  • Observed
  • Observed
  • Observed
  • Observed
  • Observed

These mice lose corticospinal tract axons, but outright loss of cortical neurons has not been reported in the model. When crossed with a Thy-1YFP model to label layer 5 pyramidal neurons, mice expressing TDP-43 (A315T) had fewer neurons at 15 weeks of age than YFP littermate controls (Zhang et al., 2016).

Most studies reported no lower motor neuron loss. One study observed 20% loss of large ventral horn neurons, possibly dependent on diet and how long the mice live in an individual colony.

Ubiquitinated inclusions in the cytoplasm of spinal motor neurons and cortical layer V neurons. No evidence for cytoplasmic TDP-43 inclusions.

Reports of astrocytosis in cortical layer 5 and in the spinal cord, as well as microgliosis in the spinal cord.

Denervation of neuromuscular junctions at end stage (~11% on normal diet; ~20% loss on a gel diet).

Atrophy of gastrocnemius muscle (gel diet).

Deficits have been reported in nonspecific measures of strength and coordination such as the Rotarod (males and females) and hanging-wire test (males). A severely impaired gait (“swimming gait”) was observed in mice fed a gel diet.

Weight loss is a consistent feature. Potentially confounded by severe gut phenotype.

Survival is limited by severe gastrointestinal dysfunction and can be prolonged with a gel diet. Lifespan varies, but in general on a standard diet males live about 3 months and females about 6 months.

TARDBP (A315T) (hybrid)

  • Observed
  • Observed
  • Observed
  • Observed
  • No Data
  • Observed
  • Observed
  • Observed
  • Observed

By end-stage, neuronal numbers in layer 5 of the motor cortex are decreased with about 50 percent loss of corticospinal tract axons.

By end-stage, ~20% loss of motor neurons in the L3-L5 region of the spinal cord.

By end-stage, cytoplasmic inclusions of ubiquitinated proteins in layer 5 neurons of motor, sensory, and cingulate cortex. Ubiquitin aggregates in ventral horn neurons. TDP-43 inclusions were rare.

By end-stage, selective increase in GFAP immunoreactivity in cortical layer 5.

Unknown.

By end-stage, atrophic muscle fibers were observed.

Gait abnormalities around three months of age, developing into a characteristic “swimming gait” by four to five months.

Weight was comparable to non-Tg mice at birth. By 4.5 months transgenic mice began to lose weight.

Survival for about 5 months (154 ± 19 days) before dying spontaneously or being euthanized. It was not reported if this analysis includes males, females, or both.

TDP-43 (A315T)

  • Absent
  • Absent
  • Observed
  • Observed
  • No Data
  • No Data
  • Observed
  • No Data
  • Absent

Not observed.

Not observed.

Cytoplasmic accumulation of TDP-43 was observed by 10 months of age in the spinal cord. Furthermore, cytoplasmic aggregates were observed and often co-localized with ubiquitin. These inclusions are not detected at three months of age.

Progressive gliosis of both astrocytes and microglia, starting at a young age (by 3 months) in the brain and spinal cord.

Unknown.

Unknown.

At 38 weeks of age, mice develop impairments on the accelerating Rotarod relative to non-Tg littermates.

Unknown.

Not observed.

TDP-43 (A315T) (line 23)

  • Absent
  • Absent
  • Observed
  • Observed
  • No Data
  • Observed
  • Observed
  • Observed
  • Observed

Not observed.

Not observed.

Ubiquitin-positive cytoplasmic inclusions in neurons of the ventral horn and brainstem. Cytoplasmic aggregates of TDP-43 are largely absent, although rare phospho-TDP-43 inclusions were observed, especially at end-stage.

Mice exhibiting muscle weakness had astrocytosis in the ventral horn of the spinal cord.

Unknown.

Atrophy of muscle fibers in the quadriceps muscle of weak mice observed by day 44.

Progressive motor impairment, characterized by weakness, a decline in grip strength, and reduction in stride length. Weakness was usually more pronounced in the hindlimbs.

Progressive weight loss.

Line 23 mice survived about 2.5 months, mean survival 75 days. It was not reported whether this survival analysis includes males, females or both. Colony at Jackson Labs has longer mean survival.

TDP-43 (G348C)

  • Absent
  • Absent
  • Observed
  • Observed
  • Observed
  • No Data
  • Observed
  • No Data
  • Absent

Not observed.

Not observed.

Cytoplasmic accumulation of TDP-43 was observed by 10 months in the spinal cord. Cytoplasmic aggregates occurred and often co-localized with ubiquitin. These inclusions are not detected at 3 months of age.

Progressive gliosis of both astrocytes and microglia, starting at a young age (by 3 months) in the brain and spinal cord.

In 10-month-old mice, approximately 10% of NMJs in the gastrocnemius muscle were denervated, with another 20% partially denervated.

Unknown.

Performance on the Rotarod was comparable to non-Tg littermates until 36 weeks of age, and became progressively worse with age.

Unknown.

Normal lifespan.

TDP-43 (M337V)

  • Absent
  • Absent
  • Observed
  • Observed
  • No Data
  • No Data
  • Observed
  • Observed
  • Observed

Not observed.

Not observed.

TDP-43 protein was largely nuclear, although some cytoplasmic TDP-43 was also observed. Some mild cytoplasmic inclusions were reported.

Reactive astrocytes and activated microglia proliferate in the spinal cord and brainstem.

No data.

No data.

Body tremors apparent by day 21 and the mice had difficulty recruiting their hindlimbs, leading to an irregular gait pattern, described as “dragging.”

 

By one month of age, homozygotes have reduced body weight compared to non-Tg littermates.

 

70% mortality of homozygotes by around one month of age.

TDP-43 (M337V) (Mt-TAR6/6)

  • Observed
  • Observed
  • Observed
  • Observed
  • No Data
  • No Data
  • Observed
  • Observed
  • Observed

Severe neuronal loss in all CA regions of the hippocampus of homozygous mice. Neuronal loss was also observed in layer V cortical neurons and thalamic neurons.

Neuronal loss was observed in the spinal cords of homozygous mice.

Some homozygous mice developed cytoplasmic inclusions in layer V cortical neurons. These were often, but not always, ubiquitin–positive. They were not universally observed, even in end-stage mice.

Elevated astrogliosis and microgliosis compared with non-Tg controls, especially in the motor cortex and spinal cord. Gliosis in the hippocampus was seen at end stage.

Unknown.

Unknown.

Motor impairment developed quickly, by 11 days of age in homozygous mice, starting with an abnormal clasping reflex. They also develop a hunched posture, muscle twitches, and reduced mobility. Paralysis developed within days, leading to death. Hemizygotes do not develop motor symptoms until about one year of age, and impairment varied from mouse to mouse.

Early postnatal growth retardation in homozygous mice. By day 17 their average body weight is about half that of non-Tg controls.

Homozygous mice survived an average of just 17 days. In contrast, hemizygous Mt-TAR6 mice lived up to 24 months (average survival ~16.4 months).

TDP-43 (Q331K)

  • No Data
  • Observed
  • Absent
  • Observed
  • Observed
  • No Data
  • Observed
  • No Data
  • No Data

Unknown.

Age-dependent loss of lower motor neurons in the lumbar spinal cord. Loss is detectable as early as 2 months of age and is more pronounced by 10 months.

TDP-43 in the brain and spinal cord was predominantly nuclear. Cytoplasmic TDP-43 aggregates were absent.

Elevated astrogliosis and microgliosis in the ventral horn of spinal cord by 10-12 months of age compared with non-Tg controls.

Reduction in neuromuscular junction endplates by 10-12 months of age. Remaining NMJs often had a “bleb-like” appearance.

Muscle fiber abnormalities including centralized nuclei and damage by 10-12 months of age.

Tremor, abnormal hindlimb clasping, impaired performance on the Rotarod were detectable starting around 3 months of age. Reduced grip strength occurred later.

Unknown.

Unknown.

TDP-43 (WT) (Elliott)

  • Absent
  • Absent
  • Observed
  • No Data
  • No Data
  • Observed
  • Observed
  • Observed
  • Observed

Not observed.

Not observed.

Cytoplasmic ubiquitin-positive inclusions in skeletal muscle cells. Some TDP-43 inclusions, too.

No data.

No data.

An analysis of the quadriceps muscle, showed signs of myopathy, including variable muscle fiber size and disorganization of the muscle architecture.

Progressive motor impairment starting with external rotation of one hind limb followed by bilateral weakness and low muscle tone. Variable penetrance of this phenotype.

Progressive weight loss.

The mean survival of hemizygous mice was 109 days (it is not clear if this value represents males, females, or both).

TDP-43 (WT) (Julien model)

  • Absent
  • Absent
  • Absent
  • Observed
  • Observed
  • No Data
  • Observed
  • No Data
  • No Data

Not observed.

Not observed.

Primarily nuclear localization of human TDP-43.

Gliosis, both microgliosis and astrogliosis, occur early in the brain and spinal cord. Reactive glia were detected as early as 3 months of age, with more by 10 months.

Some NMJ denervation was observed by 10 months of age. About 5% of NMJs at the gastrocnemius muscle were denervated, with another 20 percent partially denervated.

No data.

Decreased performance on the accelerating Rotarod at 42 weeks of age. Further impairment at 52 weeks.

No data.

No data.

TDP-43 (WT) (Kumar-Singh)

  • Observed
  • Observed
  • Observed
  • Observed
  • No Data
  • No Data
  • Observed
  • Observed
  • Observed

In homozygous mice, quantitative loss of neurons occurs in the motor cortex compared with non-Tg littermates. Both superficial and deep cortical layers of the anterior cortex are affected.

By day 18, homozygous mice exhibited about 25 percent loss of motor neurons in the lumbar spinal cord compared with non-Tg littermates.

Homozygous mice developed cytoplasmic inclusions in the brain and spinal cord, many of which were ubiquitin-positive. A minority of inclusions co-labeled with TDP-43. Ultrastructural analysis revealed ubiquitin–negative cytoplasmic inclusions in anterior horn neurons to be abnormal accumulations of mitochondria.

Astrogliosis and microgliois especially in cortical layer V of the anterior cortex, including motor and somatosensory cortex, and in the spinal cord.

No data.

No data.

Homozygous mice exhibit an abnormal clasping reflex by postnatal day 14. Other early motor deficits include a shortened stride, a wide stance, and frequent stumbling. By day 18, reduced performance on the Rotarod. Complete paralysis occurs ~10 days after onset.

Size and weight of homozygous mice lag behind hemizygotes and non-Tg littermates.

Homozygous mice survive an average of just 24 days. In contrast, hemizygous mice survive to advanced age, although they die more prematurely than non-Tg mice, after 22 to 24 months.

TDP-43 (WT) (Petrucelli)

  • Absent
  • Absent
  • Observed
  • Observed
  • No Data
  • Absent
  • Observed
  • Observed
  • Observed

Not observed.

Neuronal loss was not detected in spinal cords of homozygous mice as assessed by TUNEL staining and caspase-3 staining.

Cytoplasmic eosinophilic aggregates in spinal motor neurons by one month of age in homozygous mice.

Astrogliosis and microgliosis in the anterior horn of the spinal cord by one month of age.

Unknown.

Atrophy of the gastrocnemius muscle was not observed.

By day 21, homozygous mice displayed body tremors and mild gait impairment which progressed into a “swimming gait” and severe motor impairment.

Homozygotes diverge early from non-Tg littermates in terms of body weight, showing significantly reduced weight gain.

 

Homozygous mice were sacrificed at one to two months of age when they were unable to right themselves.

TDP-43 (Wt-TAR6/6)

  • Observed
  • Observed
  • Observed
  • Observed
  • No Data
  • Observed
  • Observed
  • Observed
  • Observed

Approximate 15 percent loss of layer V neurons in motor cortex at 6 months.

Spinal motor neuron loss observed at 3 months, with approximately 10 percent fewer anterior horn neurons in lumbosacral regions at 6 months, compared with non-transgenic mice.

Inclusions containing phosphorylated TDP-43 rarely observed in the nuclei and cytoplasm of spinal neurons.

Microgliosis in cortex and spinal cord prominent at 6 months; astrogliosis in cortex and spinal cord apparent at 1.5 months.

No data.

Muscle wasting, particularly in flanks.

Progressive motor impairment; abnormal hind limb reflexes observed as early as 1.5 months.

TAR6/6 mice had lower body weights than non-transgenic mice between 3.25 and 3.75 months age, but the two genotypes were similar at younger and older ages (at least until 4.25 months).

Average survival is 6.7 months.

ΔNLS-FUS x TDP-43(WT)

  • Observed
  • Absent
  • Observed
  • Observed
  • No Data
  • No Data
  • Observed
  • Observed
  • Observed

By 1 year, there was neuronal loss in the motor cortex.

Not observed at 1 year in the L5 anterior horn.

Ubiquitin- and p62-positive ΔNLS-FUS inclusions in motor cortex neurons.  

Microgliosis and astrocytosis were observed in the motor cortex.

No data.

No data.

Progressive motor impairments by 8 weeks. Mice demonstrated tremors, limb clasping, gait abnormalities, as well as decreased performance on the Rotarod and hanging wire test.

Decreased by 48 weeks.

Approximately 40% mortality by 60 weeks of age.

ALS-related Research Models

  • Sex-specific differences
  • Cortical Neuron Loss
  • Lower Motor Neuron Loss
  • Cytoplasmic Inclusions
  • Gliosis
  • NMJ Abnormalities
  • Muscle Atrophy
  • Motor Impairment
  • Body Weight
  • Premature Death

hTDP-43ΔNLS

Observed

Severe neuronal degeneration in the dentate gyrus and deep layers of the neocortex. Other regions, such as the hippocampal CA1 subfield and olfactory bulb, were relatively resistant to neurodegeneration. Approximately 50 percent of dentate gyrus neurons were lost one month after the transgene was activated.

Absent

Not observed.

Absent

High levels of cytosolic TDP-43 but only very rare aggregates (observed in less than 1 percent of cortical neurons and even rarer in other brain regions, such as the hippocampus and striatum).

Observed

Severe astrogliosis and microgliosis in areas affected by neurodegeneration, including cortical and hippocampal regions, as well as the corticospinal tract.

No Data

Unknown.

Absent

Not observed.

Observed

Spastic motor impairment indicated by an abnormal clasping response as early as one week after transgene induction. A variety of motor deficits develop by one month after transgene induction, including impaired coordination on the Rotarod and decreased grip strength.

No Data

Unknown.

Absent

Not observed.

NEFH-tTA x hTDP-43ΔNLS

Observed

Decreased cortical thickness indicative of neuronal degeneration beginning at four weeks off dox. By end stage, rNLS8 mice had significantly smaller brains than non-Tg littermates.

Observed

rNLS8 lost motor neurons in the lumbar spinal cord by six weeks off dox.

Observed

Cytoplasmic inclusions of TDP-43 occur as early as one week off dox in neurons in the brain. Inclusions accumulate over time and are present in many brain regions, including the motor cortex. TDP-43 inclusions are relatively rare in the spinal cord. Ubiquitin-positive inclusions are also seen.

Observed

Astrogliosis develops in many brain regions, including layer V of the motor cortex.

Observed

Denervation of the hindlimb muscle tibialis anterior was detectable by four weeks off dox, that is, two weeks prior to detectable loss of lower motor neurons.

Observed

At end-stage, rNLS8 mice exhibit gross muscle atrophy of the hindlimb muscles tibialis anterior and gastrocnemius.

Observed

rNLS8 mice develop a variety of motor impairments, starting with a deficit in hindlimb clasping and a fine tremor in the forelimb and/or hindlimb. They also develop progressive loss of grip strength (as measured by the wire-hang test) and a progressive decline in coordinated movement and balance (as measured by the accelerating Rotarod).

Observed

Body mass peaked at approximately 7 weeks of age (i.e., two weeks off dox) and then progressively dropped. Excessive loss of body weight (>30% decrease from peak weight) often defined end-stage.

Observed

rNLS8 mice die prematurely. They reach end-stage 8-18 weeks off dox, with a median survival of 10.3 weeks off dox.

TARDBP (A315T) (congenic)

No Data

These mice lose corticospinal tract axons, but outright loss of cortical neurons has not been reported in the model. When crossed with a Thy-1YFP model to label layer 5 pyramidal neurons, mice expressing TDP-43 (A315T) had fewer neurons at 15 weeks of age than YFP littermate controls (Zhang et al., 2016).

Absent

Most studies reported no lower motor neuron loss. One study observed 20% loss of large ventral horn neurons, possibly dependent on diet and how long the mice live in an individual colony.

Observed

Ubiquitinated inclusions in the cytoplasm of spinal motor neurons and cortical layer V neurons. No evidence for cytoplasmic TDP-43 inclusions.

Observed

Reports of astrocytosis in cortical layer 5 and in the spinal cord, as well as microgliosis in the spinal cord.

Observed

Denervation of neuromuscular junctions at end stage (~11% on normal diet; ~20% loss on a gel diet).

Observed

Atrophy of gastrocnemius muscle (gel diet).

Observed

Deficits have been reported in nonspecific measures of strength and coordination such as the Rotarod (males and females) and hanging-wire test (males). A severely impaired gait (“swimming gait”) was observed in mice fed a gel diet.

Observed

Weight loss is a consistent feature. Potentially confounded by severe gut phenotype.

Observed

Survival is limited by severe gastrointestinal dysfunction and can be prolonged with a gel diet. Lifespan varies, but in general on a standard diet males live about 3 months and females about 6 months.

TARDBP (A315T) (hybrid)

Observed

By end-stage, neuronal numbers in layer 5 of the motor cortex are decreased with about 50 percent loss of corticospinal tract axons.

Observed

By end-stage, ~20% loss of motor neurons in the L3-L5 region of the spinal cord.

Observed

By end-stage, cytoplasmic inclusions of ubiquitinated proteins in layer 5 neurons of motor, sensory, and cingulate cortex. Ubiquitin aggregates in ventral horn neurons. TDP-43 inclusions were rare.

Observed

By end-stage, selective increase in GFAP immunoreactivity in cortical layer 5.

No Data

Unknown.

Observed

By end-stage, atrophic muscle fibers were observed.

Observed

Gait abnormalities around three months of age, developing into a characteristic “swimming gait” by four to five months.

Observed

Weight was comparable to non-Tg mice at birth. By 4.5 months transgenic mice began to lose weight.

Observed

Survival for about 5 months (154 ± 19 days) before dying spontaneously or being euthanized. It was not reported if this analysis includes males, females, or both.

TDP-43 (A315T)

Absent

Not observed.

Absent

Not observed.

Observed

Cytoplasmic accumulation of TDP-43 was observed by 10 months of age in the spinal cord. Furthermore, cytoplasmic aggregates were observed and often co-localized with ubiquitin. These inclusions are not detected at three months of age.

Observed

Progressive gliosis of both astrocytes and microglia, starting at a young age (by 3 months) in the brain and spinal cord.

No Data

Unknown.

No Data

Unknown.

Observed

At 38 weeks of age, mice develop impairments on the accelerating Rotarod relative to non-Tg littermates.

No Data

Unknown.

Absent

Not observed.

TDP-43 (A315T) (line 23)

Absent

Not observed.

Absent

Not observed.

Observed

Ubiquitin-positive cytoplasmic inclusions in neurons of the ventral horn and brainstem. Cytoplasmic aggregates of TDP-43 are largely absent, although rare phospho-TDP-43 inclusions were observed, especially at end-stage.

Observed

Mice exhibiting muscle weakness had astrocytosis in the ventral horn of the spinal cord.

No Data

Unknown.

Observed

Atrophy of muscle fibers in the quadriceps muscle of weak mice observed by day 44.

Observed

Progressive motor impairment, characterized by weakness, a decline in grip strength, and reduction in stride length. Weakness was usually more pronounced in the hindlimbs.

Observed

Progressive weight loss.

Observed

Line 23 mice survived about 2.5 months, mean survival 75 days. It was not reported whether this survival analysis includes males, females or both. Colony at Jackson Labs has longer mean survival.

TDP-43 (G348C)

Absent

Not observed.

Absent

Not observed.

Observed

Cytoplasmic accumulation of TDP-43 was observed by 10 months in the spinal cord. Cytoplasmic aggregates occurred and often co-localized with ubiquitin. These inclusions are not detected at 3 months of age.

Observed

Progressive gliosis of both astrocytes and microglia, starting at a young age (by 3 months) in the brain and spinal cord.

Observed

In 10-month-old mice, approximately 10% of NMJs in the gastrocnemius muscle were denervated, with another 20% partially denervated.

No Data

Unknown.

Observed

Performance on the Rotarod was comparable to non-Tg littermates until 36 weeks of age, and became progressively worse with age.

No Data

Unknown.

Absent

Normal lifespan.

TDP-43 (M337V)

Absent

Not observed.

Absent

Not observed.

Observed

TDP-43 protein was largely nuclear, although some cytoplasmic TDP-43 was also observed. Some mild cytoplasmic inclusions were reported.

Observed

Reactive astrocytes and activated microglia proliferate in the spinal cord and brainstem.

No Data

No data.

No Data

No data.

Observed

Body tremors apparent by day 21 and the mice had difficulty recruiting their hindlimbs, leading to an irregular gait pattern, described as “dragging.”

 

Observed

By one month of age, homozygotes have reduced body weight compared to non-Tg littermates.

 

Observed

70% mortality of homozygotes by around one month of age.

TDP-43 (M337V) (Mt-TAR6/6)

Observed

Severe neuronal loss in all CA regions of the hippocampus of homozygous mice. Neuronal loss was also observed in layer V cortical neurons and thalamic neurons.

Observed

Neuronal loss was observed in the spinal cords of homozygous mice.

Observed

Some homozygous mice developed cytoplasmic inclusions in layer V cortical neurons. These were often, but not always, ubiquitin–positive. They were not universally observed, even in end-stage mice.

Observed

Elevated astrogliosis and microgliosis compared with non-Tg controls, especially in the motor cortex and spinal cord. Gliosis in the hippocampus was seen at end stage.

No Data

Unknown.

No Data

Unknown.

Observed

Motor impairment developed quickly, by 11 days of age in homozygous mice, starting with an abnormal clasping reflex. They also develop a hunched posture, muscle twitches, and reduced mobility. Paralysis developed within days, leading to death. Hemizygotes do not develop motor symptoms until about one year of age, and impairment varied from mouse to mouse.

Observed

Early postnatal growth retardation in homozygous mice. By day 17 their average body weight is about half that of non-Tg controls.

Observed

Homozygous mice survived an average of just 17 days. In contrast, hemizygous Mt-TAR6 mice lived up to 24 months (average survival ~16.4 months).

TDP-43 (Q331K)

No Data

Unknown.

Observed

Age-dependent loss of lower motor neurons in the lumbar spinal cord. Loss is detectable as early as 2 months of age and is more pronounced by 10 months.

Absent

TDP-43 in the brain and spinal cord was predominantly nuclear. Cytoplasmic TDP-43 aggregates were absent.

Observed

Elevated astrogliosis and microgliosis in the ventral horn of spinal cord by 10-12 months of age compared with non-Tg controls.

Observed

Reduction in neuromuscular junction endplates by 10-12 months of age. Remaining NMJs often had a “bleb-like” appearance.

No Data

Muscle fiber abnormalities including centralized nuclei and damage by 10-12 months of age.

Observed

Tremor, abnormal hindlimb clasping, impaired performance on the Rotarod were detectable starting around 3 months of age. Reduced grip strength occurred later.

No Data

Unknown.

No Data

Unknown.

TDP-43 (WT) (Elliott)

Absent

Not observed.

Absent

Not observed.

Observed

Cytoplasmic ubiquitin-positive inclusions in skeletal muscle cells. Some TDP-43 inclusions, too.

No Data

No data.

No Data

No data.

Observed

An analysis of the quadriceps muscle, showed signs of myopathy, including variable muscle fiber size and disorganization of the muscle architecture.

Observed

Progressive motor impairment starting with external rotation of one hind limb followed by bilateral weakness and low muscle tone. Variable penetrance of this phenotype.

Observed

Progressive weight loss.

Observed

The mean survival of hemizygous mice was 109 days (it is not clear if this value represents males, females, or both).

TDP-43 (WT) (Julien model)

Absent

Not observed.

Absent

Not observed.

Absent

Primarily nuclear localization of human TDP-43.

Observed

Gliosis, both microgliosis and astrogliosis, occur early in the brain and spinal cord. Reactive glia were detected as early as 3 months of age, with more by 10 months.

Observed

Some NMJ denervation was observed by 10 months of age. About 5% of NMJs at the gastrocnemius muscle were denervated, with another 20 percent partially denervated.

No Data

No data.

Observed

Decreased performance on the accelerating Rotarod at 42 weeks of age. Further impairment at 52 weeks.

No Data

No data.

No Data

No data.

TDP-43 (WT) (Kumar-Singh)

Observed

In homozygous mice, quantitative loss of neurons occurs in the motor cortex compared with non-Tg littermates. Both superficial and deep cortical layers of the anterior cortex are affected.

Observed

By day 18, homozygous mice exhibited about 25 percent loss of motor neurons in the lumbar spinal cord compared with non-Tg littermates.

Observed

Homozygous mice developed cytoplasmic inclusions in the brain and spinal cord, many of which were ubiquitin-positive. A minority of inclusions co-labeled with TDP-43. Ultrastructural analysis revealed ubiquitin–negative cytoplasmic inclusions in anterior horn neurons to be abnormal accumulations of mitochondria.

Observed

Astrogliosis and microgliois especially in cortical layer V of the anterior cortex, including motor and somatosensory cortex, and in the spinal cord.

No Data

No data.

No Data

No data.

Observed

Homozygous mice exhibit an abnormal clasping reflex by postnatal day 14. Other early motor deficits include a shortened stride, a wide stance, and frequent stumbling. By day 18, reduced performance on the Rotarod. Complete paralysis occurs ~10 days after onset.

Observed

Size and weight of homozygous mice lag behind hemizygotes and non-Tg littermates.

Observed

Homozygous mice survive an average of just 24 days. In contrast, hemizygous mice survive to advanced age, although they die more prematurely than non-Tg mice, after 22 to 24 months.

TDP-43 (WT) (Petrucelli)

Absent

Not observed.

Absent

Neuronal loss was not detected in spinal cords of homozygous mice as assessed by TUNEL staining and caspase-3 staining.

Observed

Cytoplasmic eosinophilic aggregates in spinal motor neurons by one month of age in homozygous mice.

Observed

Astrogliosis and microgliosis in the anterior horn of the spinal cord by one month of age.

No Data

Unknown.

Absent

Atrophy of the gastrocnemius muscle was not observed.

Observed

By day 21, homozygous mice displayed body tremors and mild gait impairment which progressed into a “swimming gait” and severe motor impairment.

Observed

Homozygotes diverge early from non-Tg littermates in terms of body weight, showing significantly reduced weight gain.

 

Observed

Homozygous mice were sacrificed at one to two months of age when they were unable to right themselves.

TDP-43 (Wt-TAR6/6)

Observed

Approximate 15 percent loss of layer V neurons in motor cortex at 6 months.

Observed

Spinal motor neuron loss observed at 3 months, with approximately 10 percent fewer anterior horn neurons in lumbosacral regions at 6 months, compared with non-transgenic mice.

Observed

Inclusions containing phosphorylated TDP-43 rarely observed in the nuclei and cytoplasm of spinal neurons.

Observed

Microgliosis in cortex and spinal cord prominent at 6 months; astrogliosis in cortex and spinal cord apparent at 1.5 months.

No Data

No data.

Observed

Muscle wasting, particularly in flanks.

Observed

Progressive motor impairment; abnormal hind limb reflexes observed as early as 1.5 months.

Observed

TAR6/6 mice had lower body weights than non-transgenic mice between 3.25 and 3.75 months age, but the two genotypes were similar at younger and older ages (at least until 4.25 months).

Observed

Average survival is 6.7 months.

ΔNLS-FUS x TDP-43(WT)

Observed

By 1 year, there was neuronal loss in the motor cortex.

Absent

Not observed at 1 year in the L5 anterior horn.

Observed

Ubiquitin- and p62-positive ΔNLS-FUS inclusions in motor cortex neurons.  

Observed

Microgliosis and astrocytosis were observed in the motor cortex.

No Data

No data.

No Data

No data.

Observed

Progressive motor impairments by 8 weeks. Mice demonstrated tremors, limb clasping, gait abnormalities, as well as decreased performance on the Rotarod and hanging wire test.

Observed

Decreased by 48 weeks.

Observed

Approximately 40% mortality by 60 weeks of age.