Helen B. Bass scite author profile

The bone marrow stroma consists of a heterogeneous population of cells which participate in osteogenic, adipogenic, and hematopoietic events. The murine stromal cell line, BMS2, exhibits the adipocytic and osteoblastic phenotypes in vitro. BMS2 differentiation was examined in response to cytokines which share the gp130 signal transducing protein within their receptor complex. Four of the cytokines (interleukin 6, interleukin 11, leukemia inhibitory factor, and oncostatin M) inhibited hydrocortisone-induced adipocyte differentiation in a dose dependent manner based on lipid accumulation and lipoprotein lipase enzyme activity. Inhibition occurred only when the cytokines were present during the initial 24 h of the induction period; after 48 h their effects were diminished. Likewise, these cytokines increased alkaline phosphatase enzyme activity twofold in preadipocyte BMS2 cells. Both leukemia inhibitory factor and oncostatin M induced early active gene expression in resting preadipocyte BMS2 cells and decreased the steady state mRNA level of a unique osteoblastic gene marker, osteocalcin. A fifth cytokine whose receptor complex shares the gp130 protein, ciliary neurotrophic factor, did not significantly regulate stromal cell differentiation when added by itself. However, with the addition of a missing component of its receptor complex, ciliary neurotrophic factor receptor alpha protein, this cytokine also inhibited BMS2 adipogenesis. Together, these data indicate that the cytokines whose receptors share the gp130 protein can modulate stromal cell commitment to the adipocyte and osteoblast differentiation pathways.

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Adipogenesis in a myeloid supporting bone marrow stromal cell line

Gimble

Youkhana

Hua

et al. 1992

J of Cellular Biochemistry

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The bone marrow stroma contains pre-adipocyte cells which are part of the hemopoietic microenvironment. Cloned stromal cell lines differ both in their ability to support myeloid and lymphoid development and in their ability to undergo adipocyte differentiation in vitro. These processes have been examined in the +/+2.4 murine stromal cell line and compared to other stromal and pre-adipocyte cell lines. In long-term cultures, the +/+2.4 stromal cells support myeloid cell growth, consistent with their expression of macrophage-colony stimulating factor mRNA. However, despite the presence of mRNA for the lymphoid supportive cytokines interleukins 6 and 7, +/+2.4 cells failed to support stromal cell dependent B lineage lymphoid cells in vitro, suggesting that these stromal cells exhibit only a myelopoietic support function. The +/+2.4 cells differentiate into adipocytes spontaneously when cultured in 10% fetal bovine serum. The process of adipogenesis can be accelerated by a number of agonists based on morphologic and gene marker criteria. Following induction with hydrocortisone, methylisobutylxanthine, indomethacin, and insulin in combination, a time dependent increase in the steady state mRNA and enzyme activity levels of the following adipocyte specific genes was observed: adipocyte P2, adipsin, CAAT/enhancer binding protein, and lipoprotein lipase. In contrast, adipogenesis was accompanied by a slight decrease in the signal intensity of the macrophage-colony stimulating factor mRNA level, similar to that which has been reported in other bone marrow stromal cell lines. These data demonstrate that although the lympho-hematopoietic support function of pre-adipocyte bone marrow stromal cell lines is heterogeneous, they share a common mechanism of adipogenesis.

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Inhibition of lipoprotein lipase activity by synthetic peptides of apolipoprotein C-III.

McConathy

Gesquière

Bass

et al. 1992

Journal of Lipid Research

162

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Lethality in Mammalian Cells Due to Hyperthermia under Oxic and Hypoxic Conditions

Bass

Moore²,

Coakley

1978

International Journal of Radiation Biology and Related Studies

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From several studies of hyperthermia there have been reports that hypoxic cells are more sensitive to heat than their oxic counterparts . Experimental techniques in this investigation eliminate the effect of pH, trypsinization and cell attachment, when assaying the effect of hyperthermia on cells . Under hypoxic conditions, HeLa S 3 and Chinese hamster cell-lines do not have an increased sensitivity to heat compared with oxic cells . HeLa S 3 cells are protected against heat by hypoxia . Light-microscopy indicates the rupture of the plasma membrane, occasional nuclear budding, membrane vesicles and granulation of cell contents after heating at 43°C for 3 hours . Scanning electron micrographs show that cells are more rounded after heat treatment and that there is an accompanying decrease in the number of microvilli, suggesting that the mechanism of cell attachment is affected . Heated cells should be delicately handled and subjected to the minimal trauma so that an accurate comparison of survival can be made .

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Helen B. Bass

Regulation of bone marrow stromal cell differentiation by cytokines whose receptors share the gp130 Protein

Adipogenesis in a myeloid supporting bone marrow stromal cell line

Inhibition of lipoprotein lipase activity by synthetic peptides of apolipoprotein C-III.

Lethality in Mammalian Cells Due to Hyperthermia under Oxic and Hypoxic Conditions

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