Phenotypes associated with this allele

• Allele Symbol: Ndufs4^tm1.1Rpa
• Allele Name: targeted mutation 1.1, Richard D Palmiter
• Allele ID: MGI:3793713
• Summary: 3 genotypes

Jump to	Allelic Composition	Genetic Background	Genotype ID
hm1	Ndufs4^tm1.1Rpa/Ndufs4^tm1.1Rpa	B6.129S4-Ndufs4^tm1.1Rpa	MGI:5451011
hm2	Ndufs4^tm1.1Rpa/Ndufs4^tm1.1Rpa	involves: 129/Sv * 129S4/SvJaeSor * C57BL/6	MGI:3793717
hm3	Ndufs4^tm1.1Rpa/Ndufs4^tm1.1Rpa	involves: 129S4/SvJaeSor	MGI:4818649

Genotype
MGI:5451011

hm1

• Allelic Composition: Ndufs4^tm1.1Rpa/Ndufs4^tm1.1Rpa
• Genetic Background: B6.129S4-Ndufs4^tm1.1Rpa

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

mortality/aging

premature death ( J:190475 )

• more than 90% mortality by P50

growth/size/body

decreased body size ( J:190475 )

postnatal growth retardation ( J:190475 )

• mutants show growth retardation and fail to thrive

respiratory system

abnormal breathing pattern ( J:190475 )

• intermittent breathing irregularities, including hypo- or hyperventilation and gasping

decreased pulmonary respiratory rate ( J:190475 )

• breathing rate is variable and lower in restrained mutants than in controls

apnea ( J:190475 )

• mutants exhibit intermittent episodes of apnea and periods during which respiratory frequency is very irregular; number of apnea episodes increases with age

respiratory distress ( J:190475 )

• gasping-like episodes that occur more commonly under stressful conditions, such as when being handled

abnormal pulmonary ventilation ( J:190475 )

• under normoxic conditions, mice at P8-P12 and those older than P30 have normal respiratory frequency, however they have higher tidal volume and minute ventilation

• in response to hypoxia, mutants show an initial augmentation of breathing, followed by a depression

• some mutants exhibit an abnormal response to excess CO2 (hypercapnia), with 6 of 13 mice failing to show the hyperventilation response seen in control mice, while the rest show an exaggerated response

nervous system

abnormal medulla oblongata morphology ( J:190475 )

• edematous regions/lesions in the dorsal medulla (in the vestibular nucleus)

• extensive bilateral neuroinflammation in the vestibular nucleus

abnormal olfactory bulb external plexiform layer morphology ( J:190475 )

• edematous regions/lesions in the external plexiform layer of the olfactory bulb

abnormal cerebellum lobule morphology ( J:190475 )

• edematous regions/lesions in the cerebellar lobes

abnormal cerebellum fastigial nucleus morphology ( J:190475 )

• edematous regions/lesions in the deep cerebellar fastigial nucleus

brain vacuoles ( J:190475 )

• neurons with cytoplasmic vacuoles are seen in the brain

gliosis ( J:190475 )

• progressive gliosis in the brain

microgliosis ( J:190475 )

• microglial activation is rarely seen in respiratory centers such as the medial parabrachial nucleus, nucleus of the solitary tract or preBotzinger complex, however it is seen in late-stage mutants around serotonergic cell bodies in the medullary raphe

neurodegeneration ( J:190475 )

• mutants develop a fatal progressive encephalopathy

• neurons with cytoplasmic vacuoles and aberrant mitochondria containing condensed cristae and microglia engorged with cytoplasmic remnants in the brain

abnormal pre-Botzinger complex physiology ( J:190475 )

• mutants exhibit abnormal responses of the Botzinger complex in the ventral medulla under hypoxic conditions; the initial augmentation phase is normal but during depression, the amplitude of fictive gasping is decreased

• intracellular recordings of preBotzinger complex inspiratory neurons show that under control conditions, the depolarization in phase with the network burst is reduced in mutants and the number and frequency of action potentials per burst and firing frequency is lower

• upon transition from control to hypoxic conditions, mutants have a severe reduction of the underlying depolarization when challenged by hypoxia, the number and frequency of action potentials per burst drops dramatically compared to a mild reduction in controls

behavior/neurological

lethargy ( J:190475 )

ataxia ( J:190475 )

cardiovascular system

decreased heart rate ( J:190475 )

• lower heart rate, especially in late stages of disease

homeostasis/metabolism

abnormal blood homeostasis ( J:190475 )

• percentage of oxygen saturation of arterial blood in late-stage mutants is often less than 99% which is not seen in controls

decreased body temperature ( J:190475 )

immune system

microgliosis ( J:190475 )

• microglial activation is rarely seen in respiratory centers such as the medial parabrachial nucleus, nucleus of the solitary tract or preBotzinger complex, however it is seen in late-stage mutants around serotonergic cell bodies in the medullary raphe

integument

alopecia ( J:190475 )

• mutants lose most of their hair at around P20

muscle

hypotonia ( J:190475 )

hematopoietic system

microgliosis ( J:190475 )

• microglial activation is rarely seen in respiratory centers such as the medial parabrachial nucleus, nucleus of the solitary tract or preBotzinger complex, however it is seen in late-stage mutants around serotonergic cell bodies in the medullary raphe

Mouse Models of Human Disease		DO ID	OMIM ID(s)	Ref(s)
Leigh disease		DOID:3652	OMIM:256000	J:190475

Genotype
MGI:3793717

hm2

• Allelic Composition: Ndufs4^tm1.1Rpa/Ndufs4^tm1.1Rpa
• Genetic Background: involves: 129/Sv * 129S4/SvJaeSor * C57BL/6

mortality/aging

premature death ( J:134334 )

• mice die by 7 weeks of age

behavior/neurological

lethargy ( J:134334 )

• after P30

decreased startle reflex ( J:134334 )

• startle reflex declines after P35

limb grasping ( J:134334 )

• after P35

abnormal motor coordination/balance ( J:134334 )

• after P35, mice develop severe ataxia with splayed legs, unresponsiveness to a firm nudge, slow and awkward righting response and lose of balance

impaired righting response ( J:134334 )

• after P35

ataxia ( J:134334 )

• after P35

impaired balance ( J:134334 )

• after P35, mice exhibit an inability to maintain their balance on a 0.7 mm rod, failed a negative geotaxis test and can not remain on a rotarod as long as wild-type mice

hunched posture ( J:134334 )

• at P42

vision/eye

cataract ( J:134334 )

• mice develop cataracts in one or both eyes as early as P20 and P35 mice are unable to open their eyes

abnormal eye electrophysiology ( J:134334 )

• mice fail to exhibit B waves in an electroretinogram

blindness ( J:134334 )

• mice fail to exhibit B waves in an electroretinogram and fail to recognize a visual cliff

growth/size/body

decreased body size ( J:134334 )

• at P16 and P21

postnatal growth retardation ( J:134334 )

homeostasis/metabolism

decreased body temperature ( J:134334 )

• at P30

cellular

abnormal mitochondrial ATP synthesis coupled electron transport ( J:134334 )

• CI complex activity is decreased by half compared to in wild-type mice

nervous system

nervous system phenotype ( J:134334 )

N • despite behavior defects, mice do not display infarcts, neuronal loss or gliosis

integument

sparse hair ( J:134334 )

• at P16 and P21, mice lose their body hair but it grows back with the next hair-growth cycle

Genotype
MGI:4818649

hm3

• Allelic Composition: Ndufs4^tm1.1Rpa/Ndufs4^tm1.1Rpa
• Genetic Background: involves: 129S4/SvJaeSor

nervous system

seizures ( J:161393 )

environmentally induced seizures ( J:161393 )

• in some mice when handled

abnormal brain vasculature morphology ( J:161393 )

• vasculature in the vestibular nuclei and posterior cerebellum is increased compared to in wild-type mice

intracranial hemorrhage ( J:161393 )

• at late stages, mice exhibit hemorrhages in the brainstem and occasionally the midbrain unlike in wild-type mice

brainstem hemorrhage ( J:161393 )

• in some late stage mice

brain vacuoles ( J:161393 )

• vasculature in the vestibular nuclei and posterior cerebellum is increased compared to in wild-type mice

gliosis ( J:161393 )

• progressive

microgliosis ( J:161393 )

astrocytosis ( J:161393 )

abnormal neuron morphology ( J:161393 )

• nerves in areas of neuronal degeneration exhibit mitochondria with compact and/or swollen cristae unlike in wild-type mice

neuron degeneration ( J:161393 )

• with limited apoptotic cell death

Purkinje cell degeneration ( J:161393 )

• secondary to dysregulation within cerebellar circuits

optic nerve atrophy ( J:161393 )

• in some mice

axonal spheroids ( J:161393 )

spongiform encephalopathy ( J:161393 )

• after P38, mice exhibit spongiform encephalpathy within the vestibular nuclei of the brainstem, inferior olive, fastigial nucleus, caudal cerebellar vermis (nodulus and uvula), and olfactory bulb unlike wild-type mice

abnormal neuron physiology ( J:161393 )

• mice exhibit neuronal death unlike wild-type mice

behavior/neurological

lethargy ( J:161393 )

• after P38

abnormal emotion/affect behavior ( J:161393 )

• mice are very submissive and rarely vocalize in response to stress unlike wild-type mice

decreased aggression ( J:161393 )

• mice are docile and not easily provoked compared with wild-type mice

decreased grooming behavior ( J:161393 )

• at late stages, mice groom and scratch rarely unlike wild-type mice

tremors ( J:161393 )

• intermittent

abnormal motor coordination/balance ( J:161393 )

ataxia ( J:161393 )

• mild at P18 to P26

• ataxia increased with age

• severe after P38

impaired balance ( J:161393 )

• after P21, mice exhibit deteriorating performance on a balance beam compared with wild-type mice

• starting at P35, mice become unstable, lose their balance, and fall over unlike wild-type mice

• mice are unable to maintain their balance after P40 unlike wild-type mice

impaired coordination ( J:161393 )

• after P21, mice exhibit deteriorating performance on a balance beam compared with wild-type mice

• after P40, mice exhibit deteriorating performance on a rotarod compared with wild-type mice

impaired swimming ( J:161393 )

• in a forced swim test after P21, some mice stall, corkscrew, swim upright, or swim poorly compared with wild-type mice

abnormal posture ( J:161393 )

• after P40, mice are sometime prone or unable to remain in a sitting position unlike wild-type mice

trunk curl ( J:161393 )

• at P26 to P38

straub tail ( J:161393 )

• in some mice

tail dragging ( J:161393 )

• in some mice

abnormal gait ( J:161393 )

• after P21, mice exhibit lop-headed, kyphosis, splayed hindlimbs, retropulsion, circling, falling, and difficulty righting unlike wild-type mice

• mice exhibit a progressive deterioration of footprint gait compared with wild-type mice

decreased locomotor activity ( J:161393 )

• after P21, mice exhibit reduced nocturnal activity compared with wild-type mice

positive geotaxis ( J:161393 )

• after P40

retropulsion ( J:161393 )

• after P21

circling ( J:161393 )

• after P21

abnormal sensory capabilities/reflexes/nociception ( J:161393 )

impaired righting response ( J:161393 )

• slow and awkward starting at P35

hyporesponsive to tactile stimuli ( J:161393 )

• after P38, mice are less responsive to handling, touch, and toe pinch than wild-type mice

decreased startle reflex ( J:161393 )

• as mice age

hyperekplexia ( J:161393 )

• in some mice

limb grasping ( J:161393 )

• at P26 to P38

abnormal nest building behavior ( J:161393 )

• after middle stage disease, mice exhibit reduced nest building behavior compared with wild-type mice

decreased vocalization ( J:161393 )

• handling, toe pinch, and other stress rarely elicits vocalization unlike similarly treated wild-type mice

seizures ( J:161393 )

environmentally induced seizures ( J:161393 )

• in some mice when handled

vision/eye

optic nerve atrophy ( J:161393 )

• in some mice

cataract ( J:161393 )

• in some mice

blepharoptosis ( J:161393 )

• in some mice

abnormal vision ( J:161393 )

cardiovascular system

abnormal brain vasculature morphology ( J:161393 )

• vasculature in the vestibular nuclei and posterior cerebellum is increased compared to in wild-type mice

intracranial hemorrhage ( J:161393 )

• at late stages, mice exhibit hemorrhages in the brainstem and occasionally the midbrain unlike in wild-type mice

brainstem hemorrhage ( J:161393 )

• in some late stage mice

decreased heart rate ( J:161393 )

• measured by OxMouse

growth/size/body

abnormal body weight ( J:161393 )

• after P38, body weight is unstable unlike in wild-type mice

decreased body size ( J:161393 )

• at P21

decreased body length ( J:161393 )

postnatal growth retardation ( J:161393 )

respiratory system

abnormal breathing pattern ( J:161393 )

• mice exhibit intermittent breathing irregularities including hypo- and hyperventilation and gasping unlike wild-type mice

respiratory distress ( J:161393 )

• intermittent

homeostasis/metabolism

decreased body temperature ( J:161393 )

• at P26 or later, mice exhibit decreased resting body temperature with spontaneous hypothermia unlike wild-type mice

immune system

microgliosis ( J:161393 )

muscle

abnormal muscle tone ( J:161393 )

• mice exhibit deficient or marked resistance/freezing in either hindlimb unlike wild-type mice

skeleton

kyphosis ( J:161393 )

• after P21

cellular

abnormal mitochondrial crista morphology ( J:161393 )

• nerves in areas of neuronal degeneration exhibit mitochondria with compact and/or swollen cristae unlike in wild-type mice

abnormal mitochondrial ATP synthesis coupled electron transport ( J:201547 )

• fibroblasts exhibit stalled assembly of complex 1 in the mitochondria compared to in wild-type mice

oxidative stress ( J:161393 )

hematopoietic system

microgliosis ( J:161393 )

integument

premature hair loss ( J:161393 )

• mice exhibit hair loss prior to P20 with regrowth by P30 of a dull coat compared with wild-type mice

abnormal skin appearance ( J:161393 )

• at late stages, some mice exhibit flushed, splotchy skin compared with wild-type mice