Phenotypes associated with this allele

• Allele Symbol: Sod1^m1H
• Allele Name: mutation 1, Harwell
• Allele ID: MGI:5575771
• Summary: 2 genotypes

Jump to	Allelic Composition	Genetic Background	Genotype ID
hm1	Sod1^m1H/Sod1^m1H	involves: C3H/HeH * C57BL/6J	MGI:5749248
ht2	Sod1^m1H/Sod1^+	involves: C3H/HeH * C57BL/6J	MGI:5749249

Genotype
MGI:5749248

hm1

• Allelic Composition: Sod1^m1H/Sod1^m1H
• Genetic Background: involves: C3H/HeH * C57BL/6J

• ♀: phenotype observed in females
• ♂: phenotype observed in males
• N: normal phenotype

behavior/neurological

hyporesponsive to tactile stimuli ( J:219360 )

♀ • females exhibit a sensory deficit in response to a low threshold mechanical stimulus

♀ • however, females do not show deficits toward a high-threshold mechanical stimulus

tremors ( J:219360 )

• mice develop tremors with age

impaired coordination ( J:219360 )

• mice show impaired performance on the accelerating rotarod, with females showing earlier deficits (23 weeks) than males (67 weeks)

decreased grip strength ( J:219360 )

• mice exhibit reduced grip strength from 6 weeks of age

abnormal gait ( J:219360 )

• mice develop gait abnormalities with age

positive geotaxis ( J:219360 )

• ability to walk down a vertical wire grate (negative geotaxis) is impaired

increased thermal nociceptive threshold ( J:219360 )

♀ • females exhibit a sensory deficit in response noxious heat stimulus

♀ • however, females do not show deficits toward a noxious cold stimulus (cold plate)

growth/size/body

abnormal body fat mass ( J:219360 )

• mice show less fat mass at 52 weeks of age

decreased body weight ( J:219360 )

• reduction in body weight from 4 weeks of age

hematopoietic system

microgliosis ( J:219360 )

• microgliosis is seen in the lumbar spinal cord at 15 weeks of age and increases further at 52 weeks of age

immune system

microgliosis ( J:219360 )

• microgliosis is seen in the lumbar spinal cord at 15 weeks of age and increases further at 52 weeks of age

liver inflammation ( J:219360 )

• liver at autopsy shows moderate parenchymal inflammation

liver/biliary system

liver inflammation ( J:219360 )

• liver at autopsy shows moderate parenchymal inflammation

abnormal liver morphology ( J:219360 )

• liver at autopsy shows diffuse nuclear anisocytosis, moderate parenchymal inflammation and patchy fatty change

increased liver tumor incidence ( J:219360 )

• mice exhibit more liver tumors at autopsy than wild-type mice

increased hepatocellular carcinoma incidence ( J:219360 )

mortality/aging

lethality, incomplete penetrance ( J:219360 )

• fewer than the expected numbers of homozygotes are obtained

premature death ( J:219360 )

• shorter survival, with males having a significantly reduced lifespan compared to females (495 days vs. 588 days, respectively)

muscle

abnormal muscle fiber morphology ( J:219360 )

• mice exhibit changes in the histochemical phenotype of fast twitch muscles indicative of an oxidative phenotype that is more characteristic of slow twitch, type I muscle fibers

progressive muscle weakness ( J:219360 )

♀ • progressive loss in muscle strength between 15 and 52 weeks of age, with weaker tibialis anterior muscle at 15 weeks that declines further at 52 weeks, and a reduction in muscle force of EDL by about 35% in 52 week old females

♀ • the fatigue index of EDL is normal at 15 weeks of age but is increased by 30% at 52 weeks of age

nervous system

microgliosis ( J:219360 )

• microgliosis is seen in the lumbar spinal cord at 15 weeks of age and increases further at 52 weeks of age

astrocytosis ( J:219360 )

• astrogliosis is seen in the lumbar spinal cord at 15 weeks of age and increases further at 52 weeks of age

abnormal motor neuron innervation pattern ( J:219360 )

• mice exhibit an increase in denervated endplate neuromuscular junctions in the extensor digitorum longus (EDL) at 52, but not 15, weeks of age indicating distal progressive denervation of the EDL muscle

abnormal corticospinal tract morphology ( J:219360 )

• mice show signs of cellular degeneration of corticospinal motor neurons in layer V of the motor cortex at 29 weeks of age

decreased motor neuron number ( J:219360 )

• corticospinal motor neuron numbers are normal at 15 weeks of age but are reduced by 22% at 29 weeks of age

motor neuron degeneration ( J:219360 )

• mice develop lower motor neuron 9in the lumbar spinal cord) degeneration between 6 and 15 weeks of age, showing a 23% reduction in the number of lower motor neurons at 15 weeks of age, which remains stable at 52 weeks of age

• mice develop upper motor neuron degeneration between 15 and 29 weeks of age, with a 22% reduction in corticospinal motor neuron numbers at 29 weeks

skeleton

kyphosis ( J:219360 )

• mice become severely kyphotic with age

neoplasm

increased liver tumor incidence ( J:219360 )

• mice exhibit more liver tumors at autopsy than wild-type mice

increased hepatocellular carcinoma incidence ( J:219360 )

adipose tissue

abnormal body fat mass ( J:219360 )

• mice show less fat mass at 52 weeks of age

Mouse Models of Human Disease		DO ID	OMIM ID(s)	Ref(s)
amyotrophic lateral sclerosis type 1		DOID:0060193	OMIM:105400	J:219360

Genotype
MGI:5749249

ht2

• Allelic Composition: Sod1^m1H/Sod1⁺
• Genetic Background: involves: C3H/HeH * C57BL/6J

behavior/neurological

abnormal locomotor activation ( J:219360 )

• 88 week old mutants show a reduction in the duration for each running bout when compared to 44 week old mutants unlike wild-type mice that show an increase in the duration at 88 weeks compared to 44 weeks

• mice show a reduction in the duration per running bout at 44 and 88 weeks compared to wild-type mice

decreased locomotor activity ( J:219360 )

• mice exhibit a deficit in nightly total distance traveled which declines with age

cellular

abnormal mitochondrial physiology ( J:219360 )

• in embryonic motor neurons, mitochondrial membrane potential is elevated compared to wild-type

nervous system

abnormal neuron physiology ( J:219360 )

• in embryonic motor neurons, mitochondrial membrane potential is elevated compared to wild-type

• however, mice do not exhibit motor neuron loss up to 52 weeks of age