Gene/Protein
Disease
Symptom
Drug
Enzyme
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Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C0026850 (
muscular dystrophy
)
5,870
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Much of the work on nuclear lamins during the past 15 years has focused on mutations in LMNA (the gene for prelamin A and lamin C) that cause particular
muscular dystrophy
, cardiomyopathy, partial lipodystrophy, and progeroid syndromes. These disorders, often called "laminopathies," mainly affect mesenchymal tissues (e.g., striated muscle, bone, and fibrous tissue). Recently, however, a series of papers have identified important roles for nuclear lamins in the central nervous system. Studies of knockout mice uncovered a key role for B-type lamins (lamins B1 and B2) in neuronal migration in the developing brain. Also, duplications of
LMNB1
(the gene for lamin B1) have been shown to cause autosome-dominant leukodystrophy. Finally, recent studies have uncovered a peculiar pattern of nuclear lamin expression in the brain. Lamin C transcripts are present at high levels in the brain, but prelamin A expression levels are very low-due to regulation of prelamin A transcripts by microRNA 9. This form of prelamin A regulation likely explains why "prelamin A diseases" such as Hutchinson-Gilford progeria syndrome spare the central nervous system. In this review, we summarize recent progress in elucidating links between nuclear lamins and neurobiology.
...
PMID:Nuclear lamins and neurobiology. 2484 6
Neuronal aging involves a progressive decline in cognitive abilities and loss of motor function. Mutations in human
Lamin
genes (
LMNA,
LMNB1
, LMNB2
) lead to a wide-range of diseases including
muscular dystrophy
, peripheral neuropathy and progeria. Here we investigate the role of neuronal
Lamin
in regulating age-related phenotypes. Neuronal targeting of
Lamin
led to shortened lifespan, progressive impairment of motor function and loss of dopaminergic (DA) neurons within the protocerebral anterior medial (PAM) cluster in the
Drosophila
melanogaster
brain. Loss of neuronal
Lamin
caused an age-related decline in neural physiology, with slower neurotransmission and increased chance of motor circuit failure with age. Unexpectedly,
Lamin
-dependent decline in motor function was specific for the chemical synapses of the dorsal longitudinal muscle (DLM). Together these findings highlight a central role for
Lamin
dysfunction in regulating neuronal survival and motor circuit physiology during aging.
...
PMID:Neuronal
Lamin
regulates motor circuit integrity and controls motor function and lifespan. 3122 90
