Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P43146 (tumour suppressor)
 5,935 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neurofibromatosis type 2 (NF2) is a rare autosomal dominant disorder characterized by the occurrence of bilateral vestibular schwannomas, various brain and spinal tumours as well as peripheral nerve tumours, cutaneous tumours and juvenile posterior lenticular opacity. NF2 is caused by mutations in both alleles of a tumour suppressor gene coding for a protein called schwannomin or merlin. It is suggested that the development of NF2 tumours is caused by complete inactivation of the merlin/schwannomin gene. Interestingly, in a NF2 mouse model, peripheral nerve pathology was more frequently described than schwannomas. However, review of the literature shows that patients suffering from NF2 seldom have unexplained clinical features of peripheral nerve lesion unrelated to tumour masses. Single case reports describe sural nerve biopsies, which histologically show onion-bulb-like formations, seemingly originating from Schwann cells. We have conducted a systematic investigation to determine the occurrence and aetiology of peripheral nerve involvement in NF2 patients. We investigated 15 patients with definite NF2 and in 10 of these found electrophysiological evidence of neuropathy. In this study we present the classification of neuropathy, correlation to clinical findings, and histological findings of a sural nerve biopsy. We conclude that peripheral neuropathy, mostly of axonal type, is a common clinical finding in NF2. We hypothesize that the aetiology of this frequent peripheral neuropathy syndrome in NF2 is caused by compression effects of multiple tumourlets, originating along the length of the peripheral nerves on adjacent nerve fibres, by local influences of the endoneurial pathological cells on adjacent nerve fibres and/or the inability of these cells to properly adhere to, or ensheath, the axon.
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PMID:Occurrence and characterization of peripheral nerve involvement in neurofibromatosis type 2. 1196 Aug 90

Neurofibromatosis type 2 is an autosomal-dominant multiple neoplasia syndrome that results from mutations in the NF2 tumour suppressor gene located on chromosome 22q. It has a frequency of one in 25,000 livebirths and nearly 100% penetrance by 60 years of age. Half of patients inherit a germline mutation from an affected parent and the remainder acquire a de novo mutation for neurofibromatosis type 2. Patients develop nervous system tumours (schwannomas, meningiomas, ependymomas, astrocytomas, and neurofibromas), peripheral neuropathy, ophthalmological lesions (cataracts, epiretinal membranes, and retinal hamartomas), and cutaneous lesions (skin tumours). Optimum treatment is multidisciplinary because of the complexities associated with management of the multiple, progressive, and protean lesions associated with the disorder. We review the molecular pathogenesis, genetics, clinical findings, and management strategies for neurofibromatosis type 2.
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PMID:Neurofibromatosis type 2. 1947 95

A prerequisite to myelination of peripheral axons by Schwann cells (SCs) is SC differentiation, and recent evidence indicates that reprogramming from a glycolytic to oxidative metabolism occurs during cellular differentiation. Whether this reprogramming is essential for SC differentiation, and the genes that regulate this critical metabolic transition are unknown. Here we show that the tumour suppressor Lkb1 is essential for this metabolic transition and myelination of peripheral axons. Hypomyelination in the Lkb1-mutant nerves and muscle atrophy lead to hindlimb dysfunction and peripheral neuropathy. Lkb1-null SCs failed to optimally activate mitochondrial oxidative metabolism during differentiation. This deficit was caused by Lkb1-regulated diminished production of the mitochondrial Krebs cycle substrate citrate, a precursor to cellular lipids. Consequently, myelin lipids were reduced in Lkb1-mutant mice. Restoring citrate partially rescued Lkb1-mutant SC defects. Thus, Lkb1-mediated metabolic shift during SC differentiation increases mitochondrial metabolism and lipogenesis, necessary for normal myelination.
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PMID:The tumour suppressor LKB1 regulates myelination through mitochondrial metabolism. 2557 31