Jia Min Zhou scite author profile

We have analyzed the role of glutamate and its receptors (GluRs) in regulating the development of oligodendrocytes. Activation of AMPA-preferring GluRs with selective agonists inhibited proliferation of purified cortical oligodendrocyte progenitor (O-2A) cells cultured with different mitogens, as measured by [3H]thymidine incorporation or bromodeoxyuridine staining. In contrast, activation of GABA or muscarinic receptors did not affect O-2A proliferation. Cell viability and apoptosis assays demonstrated that the inhibition of O-2A proliferation was not attributable to a cytotoxic action of GluR agonists, and was reversible. Activation of GluRs prevented lineage progression from the O-2A (GD3+/nestin+) stage to the prooligodendroblast (O4+) stage, but did not affect O-2A migration. Additional experiments examined the membrane ionic channels mediating these GluR activation effects. We found that proliferating O-2A cells expressed functional delayed rectifier K+ channels, which were absent in pro-oligodendroblasts. GluR agonists and the K+ channel blocker tetraethylammonium (TEA) strongly inhibited delayed rectifier K+ currents in O-2A cells. TEA reproduced the effects of GluR activation on O-2A proliferation and lineage progression in the same concentration range that blocked delayed rectifier K+ currents. These results indicate that glutamate regulates oligodendrogenesis specifically at the O-2A stage by modulating K+ channel activity.

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Insulin-Like Growth Factor I Regulates Gonadotropin Responsiveness in the Murine Ovary

Zhou

1997

Molecular Endocrinology

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The present study shows that insulin-like growth factor I (IGF-I) and FSH receptor (FSHR) mRNAs are selectively coexpressed in a subset of healthy-appearing follicles in murine ovaries, irrespective of cycle stage. Aromatase gene expression, a prime marker for FSH effect, is found only in IGF-I/FSHR-positive follicles, showing that these are healthy, gonadotropin-responsive follicles. Given the striking coexpression of FSHR and IGF-I, we hypothesized that FSH was responsible for follicular IGF-I expression. We found, however, that granulosa cell IGF-I mRNA levels are not reduced in hypophysectomized (+/-PMSG) or FSH knockout mice, indicating that FSH does not have a major role in regulation of granulosa cell IGF-I gene expression. To test the alternative hypothesis that IGF-I regulates FSHR gene expression, we studied ovaries from IGF-I knockout mice. FSHR mRNA was significantly reduced in ovaries from homozygous IGF-I knockout compared with wild type mice and was restored to control values by exogenous IGF-I treatment. The functional significance of the reduced FSHR gene expression in IGF-I knockout ovaries is suggested by reduced aromatase expression and by the failure of their follicles to develop normally beyond the early antral stage. In fact, IGF-I knockout and FSH knockout ovaries appear very similar in terms of arrested follicular development. In summary, we have shown that IGF-I and FSHR are selectively coexpressed in healthy, growing murine follicles and that FSH does not affect IGF-I expression but that IGF-I augments granulosa cell FSHR expression. These data suggest that ovarian IGF-I expression serves to enhance granulosa cell FSH responsiveness by augmenting FSHR expression.

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Expression of the Adrenoleukodystrophy Protein in the Human and Mouse Central Nervous System

Fouquet

Zhou

Ralston

et al. 1997

Neurobiology of Disease

100

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In vitro evidence for a dual role of tumor necrosis factor‐α in human immunodeficiency virus type 1 encephalopathy

Wilt

Milward

Zhou

et al. 1995

Annals of Neurology

138

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Microglial cell activation, myelin alteration, and abundant tumor necrosis factor (TNF)-alpha message have been observed in the brains of some human immunodeficiency virus type 1 (HIV-1)-infected and demented patients. We therefore used cultures of purified human microglia and oligodendrocytes derived from adult human brain to examine the role of TNF-alpha in HIV-1 encephalopathy. Human microglia synthesize TNF-alpha message and protein in vitro. When these cells were infected with HIV-1 JrFL and maintained in the presence of TNF-alpha antibodies, soluble TNF-alpha receptors, or the TNF-alpha inhibitor pentoxifylline, viral replication was delayed or strongly inhibited. Both human microglia and oligodendrocytes express the two TNF receptors, TNF-R1, which has been implicated in cytotoxicity, and TNF-R2. While TNF-alpha may enhance HIV-1 replication in an autocrine manner, it is not toxic for microglia. In contrast, recombinant human TNF-alpha causes oligodendrocyte death in a dose-dependent manner. In situ detection of DNA fragmentation in some cells indicated that oligodendrocyte death may occur by apoptosis. Addition of live microglia or medium conditioned by these cells also resulted in 30 to 40% oligodendrocyte death, which was largely prevented by TNF-alpha inhibitors. We propose that TNF-alpha plays a dual role in HIV-1 encephalopathy, enhancing viral replication by activated microglia and damaging oligodendrocytes. Thus, TNF-alpha inhibitors may alleviate some of the neurological manifestations of acquired immunodeficiency syndrome.

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Jia Min Zhou

Oligodendrocyte progenitor cell proliferation and lineage progression are regulated by glutamate receptor-mediated K+ channel block

Insulin-Like Growth Factor I Regulates Gonadotropin Responsiveness in the Murine Ovary

Expression of the Adrenoleukodystrophy Protein in the Human and Mouse Central Nervous System

In vitro evidence for a dual role of tumor necrosis factor‐α in human immunodeficiency virus type 1 encephalopathy

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