Analysis Tools
mortality/aging
|
• the first spontaneous deaths occur at 10 months
• the average lifespan of homozygous mutant mice is 19 months
|
behavior/neurological
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• at 18 months or older, homozygotes exhibit great difficulty moving as well as poor balance
|
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• at the age of 5 to 10 months, homozygotes exhibit impaired neuromotor coordination
(J:37022)
• at 18 months or older, homozygotes show impaired neuromotor coordination
(J:91114)
|
|
• at 18 months or older, homozygotes often drag their hind legs while walking
|
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• older homozygotes (>18 months) display short steps and often walk straddle-legged
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cellular
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• as early as 5-10 months, homozygotes exhibit a massive accumulation of aspartylglucosamine along with lysosomal vacuolization
(J:37022)
• a strong accumulation of hypertrophic lysosomes is noted in the deep cerebellar nuclei whereas only relatively minor changes are observed in the hippocampus
(J:49386)
• at >18 months, homozygotes show widely distributed lysosomal hypertrophy both in the CNS and in visceral organs
(J:91114)
|
|
• many terminally ill homozygotes suffer from massive coagulative hepatic necrosis caused by bacterial infections
|
homeostasis/metabolism
|
• complete glycosylasparaginase deficiency leads to accumulation of aspartylglucosamine in tissues and urine
(J:37022)
• adult homozygotes receiving i.v. injections of recombinant glycosylasparaginase rapidly restore aspartylglucosamine to normal levels in non-neuronal tissues
(J:60272)
• a single AGA injection reduced the amount of aspartylglucosamine in liver and spleen by 90% and 80%, respectively
(J:60272)
• AGU pathophysiologic features were reversed in non-neuronal tissues over a 2-week period of enzyme therapy
(J:60272)
• glycosylasparaginase activity increased to 10% of that in wild-type brain tissue and the accumulation of aspartylglucosamine was decreased by 20% in total brain of treated mice
(J:60272)
|
|
• complete glycosylasparaginase deficiency leads to accumulation of aspartylglucosamine in urine
|
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• urine inside dilatated bladders is clear, not due to bacterial
infections
|
liver/biliary system
|
• many terminally ill homozygotes suffer from massive coagulative hepatic necrosis caused by bacterial infections
|
renal/urinary system
|
• complete glycosylasparaginase deficiency leads to accumulation of aspartylglucosamine in tissues and urine
(J:37022)
• adult homozygotes receiving i.v. injections of recombinant glycosylasparaginase rapidly restore aspartylglucosamine to normal levels in non-neuronal tissues
(J:60272)
• a single AGA injection reduced the amount of aspartylglucosamine in liver and spleen by 90% and 80%, respectively
(J:60272)
• AGU pathophysiologic features were reversed in non-neuronal tissues over a 2-week period of enzyme therapy
(J:60272)
• glycosylasparaginase activity increased to 10% of that in wild-type brain tissue and the accumulation of aspartylglucosamine was decreased by 20% in total brain of treated mice
(J:60272)
|
|
• complete glycosylasparaginase deficiency leads to accumulation of aspartylglucosamine in urine
|
|
• urine inside dilatated bladders is clear, not due to bacterial
infections
|
|
• at >18 months, all aging homozygotes suffer from impaired bladder function
• as peripheral nerves remain unaffected, the "neurogenic bladder" phenotype is presumed to be secondary to the CNS defects
|
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• homozygotes display glomerular loss
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• homozygotes exhibit interstitial fibrosis
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• the caliceal mucosa is distended to one or two urothelial cells
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• impaired bladder function and subsequent hydronephrosis are often associated with a reflux nephropathy
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• renal parenchyma is thinned
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• homozygotes display tubular atrophy
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• the thickness of the urothelium varies with the degree of bladder distention, stretching to a thickness of two cells in the most distended area
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• a significant number of older male homozygotes have massively swollen bladders
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nervous system
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• homozygotes display cerebellar damage, manifested as severe loss of Purkinje cells, intensive astrogliosis, and vacuolation of neurons in deep cerebellar nuclei
|
astrocytosis
(
J:91114
)
|
• older mice (>18 months) show intensive astrogliosis
|
|
• at >18 months, all aging homozygotes suffer from impaired bladder function
• as peripheral nerves remain unaffected, the "neurogenic bladder" phenotype is presumed to be secondary to the CNS defects
|
|
• at 5-10 months, homozygotes exhibit axonal swelling in the gracile nucleus
|
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• in older homozygotes (>18 months), severe neuronal vacuolation is often associated with neuronal loss
• neuronal vacuolation is pronounced in the lateral thalamic nuclei, medullary reticular nuclei, vestibular nuclei, inferior olivary complex, and deep cerebellar nuclei
• severe vacuolation of cells in the vestibular and cochlear nuclei may contribute to the impairment of neuromotor coordination
|
|
• unlike AGU patients, where loss of Purkinje cells is scattered, homozygotes display widespread loss of Purkinje cells
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integument
|
• at ~5 months, homozygotes start to exhibit a general scruffiness, recognizable from their disheveled coat
|
Mouse Models of Human Disease |
DO ID | OMIM ID(s) | Ref(s) | |
| aspartylglucosaminuria | DOID:0050461 |
OMIM:208400 |
J:37022 | |
