Aaron Heifetz scite author profile

Adipose tissue serves as a source of adipokines and cytokines with both local and systemic actions in health and disease. In this study, we examine the hypothesis that multipotent human adipose-derived stem cells (ASCs), capable of differentiating along the adipocyte, chondrocyte, and osteoblast pathways, contribute to adipose tissue-derived cytokine secretion. Following exposure to basic fibroblast growth factor (bFGF) or epidermal growth factor (EGF), the ASCs significantly increase their secretion of hepatocyte growth factor (HGF), a cytokine implicated in hematopoiesis, vasculogenesis, and mammary epithelial duct formation. Ascorbic acid synergizes with these inductive factors, further increasing HGF levels. Following exposure to lipopolysaccharide, ASCs increase their secretion of both hematopoietic (granulocyte/monocyte, granulocyte, and macrophage colony stimulating factors, interleukin 7) and proinflammatory (interleukins 6, 8, and 11, tumor necrosis factor alpha) cytokines based on ELISA and RT-PCR. In co-cultures established with umbilical cord blood-derived CD34(+) cells, the ASCs support long-term hematopoiesis in vitro. Furthermore, in short-term 12-day co-cultures, the ASC maintain and expand the numbers of both myeloid and lymphoid progenitors. These observations are consistent with the functionality of the secreted cytokines and confirm recent reports by other laboratories concerning the hematopoietic supportive capability of ASCs. We conclude that the ASCs display cytokine secretory properties similar to those reported for bone marrow-derived mesenchymal stem cells (MSCs).

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Mechanism of action of tunicamycin on the UDP-GlcNAc:dolichyl-phosphate GlcNAc-1-phosphate transferase

Heifetz¹,

Keenan²,

Elbein³

1979

Biochemistry

399

226

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A morphological study of differentiated hepatocytes in vitro

Arterburn

Zurlo

Yager

et al. 1995

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A problem traditionally encountered with primary hepatocyte cultures is their rapid dedifferentiation, which is reflected not only in decreased liver-specific functions, but also in dedifferentiated morphology: the cells flatten, depolarize, and lose many of the surface characteristics of normal hepatocytes in vivo. However, culture conditions that maintain primary rat hepatocytes in a healthy and highly differentiated state were recently developed: the hepatocytes are cultured in Chee's Medium supplemented with dexamethasone and dimethyl sulfoxide (DMSO) on collagen-coated Permanox dishes. In addition to retaining labile hepatocyte-specific functions (e.g., P450 activity and albumin synthesis), these hepatocytes also have a differentiated morphology. They have numerous microvilli and are cuboidal and cluster into cords reminiscent of hepatic trabeculae. Their subcellular organelles have normal morphology, and specialized junctions and bile canaliculi form within the membranes of adjacent cells. Actin fibers cluster at these canalicular surfaces. These hepatocytes also synthesize blood clotting factors, which aggregate into fibrin meshworks between cells. Taken together, these morphological data suggest that these hepatocytes are polarized and generally have an appearance very similar to parenchymal cells in the liver, and that the same culture conditions that promote retention of liver-specific functions are also critical to the maintenance of physiological morphology. In contrast to other hepatocyte cultures, this differentiated morphology, including the polarized nature of the cells, is established without the use of serum or flexible or complex extracellular matrices and shows a close link between cellular architecture and tissue-specific function.

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Mechanism of O-alkyl lipid synthesis

Friedberg¹,

Heifetz²,

Greene³

1972

Biochemistry

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Loss of Hydrogen from Dihydroxyacetone Phosphate during Glyceryl Ether Synthesis

Friedberg¹,

Heifetz²,

Greene³

1971

Journal of Biological Chemistry

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Aaron Heifetz

Cytokine profile of human adipose‐derived stem cells: Expression of angiogenic, hematopoietic, and pro‐inflammatory factors

Mechanism of action of tunicamycin on the UDP-GlcNAc:dolichyl-phosphate GlcNAc-1-phosphate transferase

A morphological study of differentiated hepatocytes in vitro

Mechanism of O-alkyl lipid synthesis

Loss of Hydrogen from Dihydroxyacetone Phosphate during Glyceryl Ether Synthesis

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