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Query: UMLS:C0022716 (
Menkes
)
1,057
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The brindled mouse (Mobr) is a neurological mutant mouse with a deficiency in copper transport. This mutant has many clinical as well as biochemical features in common with
Kinky hair syndrome
(
KHS
) in humans (Tab. 1). Male hemizygotes (Mobr/Y) are characterized by the absence of
fur
pigment and curly whiskers. They become inactive, losing weight at around the 10th-12th post-natal day. They usually die in an emaciated state around the 15th-16th postnatal day. The brain weight is usually about three fourths of that of littermate controls. Microscopically, widespread neuronal degeneration was noted in the cerebral cortex and thalamic nuclei of male hemizygotes after the 12th post-natal day. The degeneration continued to increase until death. Scattered degenerated cells were also noted in the cerebellum. No such degenerative changes were observed in the brain of female heterozygotes (Mobr/+) or in normal or starved littermates. These degenerative changes of neurons in the brindled hemizygote mouse will be compared with the neuropathological changes observed in
KHS
and in experimental animals with copper deficiency, and the possible pathogenesis of these changes will be discussed.
...
PMID:Neuronal degeneration in the brain of the brindled mouse--a light microscope study. 57 Oct 7
The effects of a low copper diet on pigmentation, pigment cell and melanosome morphology have been investigated in ACI/T male rats. After a three months treatment the
fur
and skin pigmentation is reduced as compared to the controls. The melanocytes of the treated rats show the phenotype of active pigment cells while some melanosomes are abnormally differentiated: both lamellar and granular organelles are present in the same pigment cell and mosaic age melanosomes appear. The abnormal melanosome structure expressed by the treated-rat melanocytes is also evident in vitro. After incubation with deoxycholate the melanosomes from the low-copper diet treated rats are much more altered than those from the control rats. The phenotype of the rats starved for copper seems to mimic as regards pigmentation the phenotype of the mouse Mo (mottled) mutation that is an experimental model of the
Menkes' kinky hair syndrome
. In conclusion copper deficiency seems to affect both the morphology and function of the pigment cells.
...
PMID:Copper deficiency and pigmentation in the rat: morphofunctional aspects. 160 May 17
The brindled mottled mutant mouse, a model of
Menkes
' disease, has alterations in copper homeostasis which cause, among other sequelae, neuronal degeneration in selected areas of brain. This work examined the neurochemical changes at postnatal days (PND) 15, 30 and 60 in females heterozygous for the sex-linked brindled mutation. These data were compared to behavioral alterations and to
fur
coat color at these same time points. The brindled heterozygotic females had lower concentrations of norepinephrine (NE) in the cingulate cortex, and higher levels of dopamine or dopamine metabolites in the cingulate cortex, thalamus and hypothalamus across all ages, although the difference was greatest at PND 15. The brindled females were much less active than their normal littermates at PND 15, but the differences were no longer evident at PND 30 and 60. Mottling of the
fur
is believed to result from low tyrosinase activity caused by abnormalities in copper metabolism. The
fur
pattern and behavior of the brindled mice were highly correlated with NE levels in the cingulate cortex and thalamus. These data show that female brindled mice have neurochemical abnormalities similar to (if less severe than) the male hemizygotes, that these abnormalities are regionally specific, are most apparent prior to 30 days of age, and are linked to behavioral deficits. These data also show that the extent of such deficits can be predicted by a quantitative analysis of the
fur
pattern of these females.
...
PMID:The female brindled mouse as a model of Menkes' disease: the relationship of fur pattern to behavioral and neurochemical abnormalities. 175 14
The macular mutant mouse shows X-linked recessive inheritance and its hemizygote (Ml/y) is considered to be an appropriate model of
Menkes
kinky hair disease (MKHD). In this study the homozygote (Ml/Ml) was bred by coupling CuCl2-treated Ml/y with Ml/+ and was clinically and neuropathologically examined. The Ml/Ml had white
fur
color and curly whiskers from day 3, showed ataxia and tonic seizure on day 8 and gradually lost weight after day 10. It died with severe emaciation around day 15. These clinical features were improved by CuCl2 injection. Quantitative analysis showed that the dendritic arborization of the pyramidal cell in the treated Ml/Ml was delayed on days 14, 20, 30, 45 and 90 in comparison with that of the age-matched +/y. In the cerebellum of the Ml/Ml on day 14, some of the Purkinje cells showed abnormal changes such as somal sprouts, spine-like structures on the surface of the soma and stem dendrites, thick stem dendrites, multiple focal swellings of the stem and distal dendrites, reduction in the size of dendritic trees and axonal focal swellings. These changes were gradually improved in the Ml/Ml with CuCl2 treatment after day 20, with the exception of the multiple focal swellings of the stem and distal dendrites. The dendritic focal swelling gradually decreased after day 45. These clinical and neuropathological features of the Ml/Ml are almost same as those of the Ml/y. In our mutant mouse, when the treated Ml/Ml is coupled with the treated Ml/y all offspring from the Ml/Ml are genetically Ml/y or Ml/Ml. Our study indicates that these fetal mice may be useful for studying the pathological and biochemical condition of prenatal MKHD.
...
PMID:Golgi study on the homozygote (Ml/Ml) of macular mutant mouse. 247 62
The macular mutant mouse was clinically and pathologically examined. The hemizygotes began to show white
fur
color and curly whiskers around postnatal day 3, then seizures and ataxia around day 8, while the normal littermates did not. The hemizygotes also increased weight gradually from birth to day 9, but then showed weight loss and died around day 15 with severe emaciation. These clinical features resembled those in
Menkes
kinky hair disease. There were no pathological changes in the cerebral cortex in the hemizygotes on day 7. On day 10, two to three clear vacuoles began to appear in a few neurons in the cerebrum. These neurons with vacuoles increased gradually in number and degenerative neurons were also observed by day 14. Ultrastructurally, they corresponded to giant abnormal mitochondria with an electron-lucent matrix and short peripherally located cristae. Other abnormal mitochondria, which were characterized by an electron-dense matrix with tubular or vesicular cristae, were also observed in the cerebral cortical neurons.
...
PMID:Clinico-pathological study on macular mutant mouse. 356 5
The clinical and morphological features were studied in female heterozygotes of the sex-linked brindled mutant mice, which are an appropriate animal model for human
Menkes
' kinky hair disease (MKHD). Clinically, female heterozygotes presented phenotypical variety. In these heterozygotes, we distinguished the unique group of mice, which showed mottled white and dark brown
fur
and curly whiskers. We designated this unique group "heterozygote, variant type", in contrast to the remaining group--"heterozygote, usual type"--, of which the
fur
was mottled dark and light brown, and the whiskers were straight. Ultrastructurally, various degrees of mitochondrial changes, from an almost normal appearance of the mitochondria to similar to those of the hemizygotes, were observed. Furthermore we noticed that, in the heterozygotes, there were positive correlations between this morphological spectrum and those phenotypical varieties. These findings were interpreted as a possible subclinical copper deficiency in the heterozygotes, and the morphological alterations in heterozygotes were probably due to X-chromosome inactivation according to Lyon's hypothesis. The presence, however, of clinical and morphological varieties in the heterozygotes leads us to the hypothesis that the inactivation rate is not necessarily the same for all carriers. Moreover, it can be speculated that pathologic changes similar to those in heterozygotes may be present in the female carriers of human MKHD.
...
PMID:Neuropathologic study in the heterozygotes of X-linked brindled mutant mouse. 405 Mar 46
