Snipes Gj scite author profile

Charcot-Marie-Tooth disease type 1A (CMT1A) is an autosomal dominant peripheral neuropathy associated with a large DNA duplication on the short arm of human chromosome 17. The trembler (Tr) mouse serves as a model for CMT1A because of phenotypic similarities and because the Tr locus maps to mouse chromosome 11 in a region of conserved synteny with human chromosome 17. Recently, the peripheral myelin gene Pmp-22 was found to carry a point mutation in Tr mice. We have isolated cDNA and genomic clones for human PMP-22. The gene maps to human chromosome 17p11.2-17p12, is expressed at high levels in peripheral nervous tissue and is duplicated, but not disrupted, in CMT1A patients. Thus, we suggest that a gene dosage effect involving PMP-22 is at least partially responsible for the demyelinating neuropathy seen in CMT1A.

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Neurons Promote the Translocation of Peripheral Myelin Protein 22 into Myelin

Pareek

et al. 1997

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Schwann cells express low levels of myelin proteins in the absence of neurons. When Schwann cells and neurons are cultured together the production of myelin proteins is elevated, and myelin is formed. For peripheral myelin protein 22 (PMP22), the exact amount of protein produced is critical, because peripheral neuropathies result from its underexpression or overexpression. In this study we examined the effect of neurons on Schwann cell PMP22 production in culture and in peripheral nerve using metabolic labeling and pulse-chase studies as well as immunocytochemistry. Most of the newly synthesized PMP22 in Schwann cells is rapidly degraded in the endoplasmic reticulum. Only a small proportion of the total PMP22 acquires complex glycosylation and accumulates in the Golgi compartment. This material is translocated to the Schwann cell membrane in detectable amounts only when axonal contact and myelination occur. Myelination does not, however, alter the rapid turnover of PMP22 in Schwann cells. PMP22 may therefore be a unique myelin protein in that axonal contact promotes its insertion into the Schwann cell membrane and myelin without altering its rapid turnover rate within the cell.

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Evidence for the coidentification of GAP-43, a growth-associated protein, and F1, a plasticity-associated protein

Chan

et al. 1987

J. Neurosci.

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GAP-43 is a fast-axonally transported protein whose expression correlates with periods of axon growth both during development and during regeneration. Similarities in molecular weight (43-47 kDa), pI (4.3-4.5), and aberrant behavior in acrylamide gels suggested that GAP-43 might be related or identical to protein F1, a protein kinase C substrate that has been shown to undergo a change in phosphorylation state during long-term potentiation in the hippocampus. Here we show that GAP-43 and protein F1 comigrate by two-dimensional PAGE and that antiserum raised against GAP-43 specifically immunoprecipitates protein F1. More direct evidence that GAP-43 and protein F1 are identical proteins was obtained by performing S. aureus V8 protease digests of a mixture of purified 32P-labeled protein F1 and purified GAP-43. Under these conditions, 2 phosphorylated peptide fragments of protein F1 corresponded exactly to 2 Coomassie-stainable bands from purified GAP-43. We conclude on the basis of these data that GAP-43 and protein F1 are identical proteins. Using light-microscopic immunocytochemistry, we also show that GAP-43/protein F1 immunoreactivity is localized to neuropil areas of the hippocampus consistent with its roles as a protein kinase C substrate in vivo and in long-term potentiation. These findings suggest that nerve growth during development and regeneration, and synaptic plasticity in the adult mammalian brain, may be mediated by a common mechanism involving the phosphorylation of GAP-43/protein F1.

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Gliofibroma

Gj¹,

Gk²,

Lane³

et al. 1991

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Snipes Gj

The gene for the peripheral myelin protein PMP–22 is a candidate for Charcot–Marie–Tooth disease type 1A

Neurons Promote the Translocation of Peripheral Myelin Protein 22 into Myelin

Evidence for the coidentification of GAP-43, a growth-associated protein, and F1, a plasticity-associated protein

Gliofibroma

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