Carol Hayes scite author profile

We have taken a transgenic approach in an effort to specifically transform oligodendrocytes, the myelinating glial cells of the central nervous system (CNS). Transgenic mice were generated with a DNA construct that contained the activated neu oncogene under the transcriptional control of the myelin basic protein (MBP) gene. The MBP/c-neu transgenic animals have experienced a low incidence of brain tumors that express molecular markers specific to oligodendrocytes, providing a mouse model to study the formation and progression of oligodendrocyte tumors. A tumor from a transgenic animal has been dispersed in culture, and transformed cells that express properties of oligodendrocytes and astrocytes have been maintained. The degree to which these cells express phenotypic characteristic of oligodendrocytes or astrocytes is influenced by culture conditions. These transformed cells should serve as a valuable resource with which to study various molecular and biochemical aspects of the myelination process, as well as the lineage interrelationship of CNS glial cells.

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Control of Cholesterol Biosynthesis in Schwann Cells

Goodrum

Hayes

et al. 1998

Journal of Neurochemistry

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Abstract:Cholesterol accounts for over one-fourth of total myelin lipids. We found that, during development of the rat sciatic nerve, expression of mRNA for hydroxymethylglutaryl-coenzyme A (HMG-CoA) reductase, the rate-limiting enzyme in cholesterol biosynthesis, was upregulated in parallel with mRNA for P 0, the major structural protein of PNS myelin, and with ceramide galactosyltransferase (CGT), the rate-limiting enzyme in cerebroside biosynthesis. To help establish the nature of this coordinate regulation of myelin-related genes, we examined their steady-state mRNA levels in cultured primary Schwann cells. We also assayed synthesis of cholesterol and cerebroside to distinguish how much control of synthetic activity for these two myelin lipids involved mRNA levels for HMG-C0A reductase and CGT, and how much involved post-mRNA control mechanisms. Addition of forskolin to cells cultured in media supplemented with normal calf serum resulted in up-regulation of P0 and CGT mRNA expression and cerebroside synthesis, without corresponding increases in HMG-CoA reductase mRNA or cholesterol synthesis. Cholesterol synthesis increased approximately threefold in Schwann cells cultured with lipoprotein-deficient serum, without any increase in HMG-CoA reductase mRNA. Furthermore, addition of either serum lipoproteins or 25-hydroxycholesterol decreased cholesterol synthesis without altering HMG-CoA reductase mRNA levels. We conclude that, as in other tissues, cholesterol synthesis in Schwann cells is regulated primarily by intracellular sterol levels. Much of this regulation occurs at posttranscriptional levels. Thus, the in vivo coordinate up-regulation of HMG-CoA reductase gene expression in myelinating Schwann cells is secondary to intracellular depletion of cholesterol, as it is compartmentalized within the myelin. It is probably not due to coordinate control at the level of mRNA expression.

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DNA Sequence, genomic organization, and chromosomal localization of the mouse peripheral myelin protein zero gene: Identification of polymorphic alleles

et al. 1991

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Morphological and molecular response of the MOCH‐1 oligodendrocyte cell line to serum and interferon‐γ: Possible implications for demyelinating disorders

Atashi

Hayes

et al. 1995

J of Neuroscience Research

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The regional loss of oligodendrocytes is thought to be an important pathological event in a variety of demyelinating diseases of the central nervous system (CNS). Various components of serum, which are normally excluded from the CNS by the blood-brain barrier, have been implicated as mediators of demyelinating disorders. We have examined the effects of high concentrations of serum (10% fetal bovine serum, FBS), as well as the cytokine interferon-gamma (IFN-gamma), on an oligodendrocyte cell line, MOCH-1 cells. These cells changed from phase-bright, small round cells with multiple thin, branched processes in 1% FBS medium to flat, fibroblast-like cells with large cell bodies when cultured in 10% FBS medium or 1% FBS medium containing IFN-gamma. These morphological changes were accompanied by a large increase in expression of the astrocyte marker, glial fibrillary acidic protein (GFAP), as detected by Northern and Western blot analyses. In addition, Northern blot and fluorescence-activated cell sorting analyses revealed that IFN-gamma induced a very large increase in major histocompatibility complex (MHC) class I expression in MOCH-1 cells. MHC class II mRNA induction by IFN-gamma was also seen. In contrast, 10% FBS did not elevate either MHC class I or class II mRNA levels in MOCH-1 cells. The morphological and molecular effects of 10% FBS and IFN-gamma were reversible. We suggest that the response of MOCH-1 cells to high concentrations of serum and IFN-gamma may reflect an important in vivo response to oligodendrocytes to perturbations that occur in demyelinating disorders.

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MOCH-1 Cells: An Oligodendrocyte Cell Line Generated Using a Transgenic Approach

Popko

Hayes

et al. 1994

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Carol Hayes

Expression of the neu oncogene under the transcriptional control of the myelin basic protein gene in transgenic mice: Generation of transformed glial cells

Control of Cholesterol Biosynthesis in Schwann Cells

DNA Sequence, genomic organization, and chromosomal localization of the mouse peripheral myelin protein zero gene: Identification of polymorphic alleles

Morphological and molecular response of the MOCH‐1 oligodendrocyte cell line to serum and interferon‐γ: Possible implications for demyelinating disorders

MOCH-1 Cells: An Oligodendrocyte Cell Line Generated Using a Transgenic Approach

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