John J. Castellot scite author profile

SUMMARY Thermogenic UCP1-positive cells, which include brown and beige adipocytes, transform chemical energy into heat and increase whole body energy expenditure. Using a selective translational profiling approach, we present a comprehensive molecular description of brown and beige gene expression in vivo. This UCP1-TRAP dataset demonstrates striking similarities and important differences between these cell types, including a smooth muscle-like signature expressed by beige, but not classical brown adipocytes. In vivo fate mapping demonstrates that at least a subset of beige cells arise from a smooth muscle-like origin. Finally, ectopic expression of PRDM16 converts bona fide vascular smooth muscle cells into Ucp1-positive adipocytes in vitro. These results establish a portrait of brown and beige adipocyte gene expression in vivo and identify a previously unrecognized origin for beige cells.

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Binding and internalization of heparin by vascular smooth muscle cells

Castellot

Wong

Herman

et al. 1985

Journal Cellular Physiology

289

166

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Previous work from our laboratory has demonstrated that heparin specifically inhibits the proliferation of vascular smooth muscle cells in vivo and in vitro. In this paper, we examine the binding and mode of internalization of heparin by smooth muscle cells. For these studies, radiolabeled and fluoresceinated (FITC) heparin probes were synthesized that retained their antiproliferative capacity. Binding of 3H-heparin to these cells occurs via specific, high-affinity binding sites (Kd = 10(-9) M, 100,000 binding sites per cell). Approximately 80% of the heparin bound to the cell surface was shed into the culture medium within 2 hr. The heparin that was left on the cell surface was internalized with biphasic kinetics. Approximately 50% of the bound material was internalized within 2 hr. After this initial rapid uptake, the rate slowed substantially, with the remaining heparin requiring 1-2 days to be internalized. Binding and uptake of FITC heparin was monitored using video image intensification fluorescence microscopy. When smooth muscle cells were exposed to FITC heparin at 4 degrees C, a diffuse surface staining pattern was observed. After warming the cells to 37 degrees C, intensely fluorescent vesicles were seen superimposed over the diffuse surface staining within 2 min. After 15 min at 37 degrees C, numerous large punctate vesicles were seen inside the cell. After 2 hr these vesicles had concentrated in the perinuclear region. This pattern of uptake, when considered along with the presence of specific, high-affinity binding sites and the initial rapid uptake of 3H-heparin, suggests that heparin enters smooth muscle cells by both receptor-mediated and other endocytic pathways.

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Impaired Clearance of Apoptotic Cells Promotes Synergy between Atherogenesis and Autoimmune Disease

et al. 2004

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To clarify the link between autoimmune disease and hypercholesterolemia, we created the gld.apoE −/− mouse as a model of accelerated atherosclerosis. Atherosclerotic lesion area was significantly increased in gld.apoE −/− mice compared with apoE −/− mice. gld.apoE −/− mice also displayed increases in lymphadenopathy, splenomegaly, and autoantibodies compared with gld mice, and these effects were exacerbated by high cholesterol diet. gld.apoE −/− mice exhibited higher levels of apoptotic cells, yet a reduced frequency of engulfed apoptotic nuclei within macrophages. Infusion of lysophosphatidylcholine, a component of oxidized low density lipoprotein, markedly decreased apoptotic cell clearance in gld mice, indicating that hypercholesterolemia promotes autoimmune disease in this background. These data suggest that defects in apoptotic cell clearance promote synergy between atherosclerotic and autoimmune diseases.

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Sonic hedgehog regulates angiogenesis and myogenesis during post‐natal skeletal muscle regeneration

Straface¹,

Aprahamian

Flex³

et al. 2008

J Cellular Molecular Medi

121

129

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Sonic hedgehog (Shh) is a morphogen regulating crucial epithelial-mesenchymal interactions during embryonic development, but its signaling pathway is considered generally silent in post-natal life. In this study, we demonstrate that Shh is de novo expressed after injury and during regeneration of the adult skeletal muscle. Shh expression is followed by significant upregulation of its receptor and target gene Ptc1 in injured and regenerating muscles. The reactivation of the Shh signaling pathway has an important regulatory role on injury-induced angiogenesis, as inhibition of Shh function results in impaired upregulation of prototypical angiogenic agents, such as vascular endothelial growth factor (VEGF) and stromal-derived factor (SDF)-1alpha, decreased muscle blood flow, and reduced capillary density after injury. In addition, Shh reactivation plays a regulatory role on myogenesis, as its inhibition impairs the activation of the myogenic regulatory factors Myf-5 and MyoD, decreases the upregulation of insulin-like growth factor (IGF)-1, and reduces the number of myogenic satellite cells at injured site. Finally, Shh inhibition results in muscle fibrosis, increased inflammatory reaction, and compromised motor functional recovery after injury. These data demonstrate that the Shh pathway is functionally important for adult skeletal muscle regeneration and displays pleiotropic angiogenic and myogenic potentials in post-natal life. These findings might constitute the foundation for new therapeutic approaches for muscular diseases in humans.

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Effect of heparin on vascular smooth muscle cells. I. Cell metabolism

Castellot

Cochran

Karnovsky

1985

Journal Cellular Physiology

216

110

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Previous work from our laboratory has shown that heparin inhibits the proliferation of vascular smooth muscle cells in vivo and in vitro. The mechanism of action of this glycosaminoglycan is unknown. In this communication, we have examined the antiproliferative effect of heparin on smooth muscle and other cell types, and have investigated several aspects of heparin on smooth muscle cell metabolism. Smooth muscle and closely related cell types from several species, including human, were much more sensitive to heparin than any other cell type tested, including primary and established cell lines, normal and transformed cell pairs, fibroblasts, epithelial, and endothelial cells. Flow microfluorimetric analysis of cell cycle distribution indicated that heparin blocked either the G0----S transition or a very early S-phase event in smooth muscle cells. Heparin rapidly inhibited DNA and RNA synthesis, but did not affect the rate of protein synthesis. The decrease in nucleic acid synthesis could be accounted for by an inhibition of thymidine and uridine uptake. Interestingly, heparin did not block amino acid or glucose transport. Although no change in the overall rate of protein synthesis was observed in the presence of heparin, we noted at least two changes in the synthesis of specific proteins by smooth muscle cells: two 35,000-dalton proteins which appeared in the culture medium of heparin-treated cells, and the transient disappearance of a 48,000-dalton protein in the substrate attached material of smooth muscle cells exposed to heparin. The role of the observed changes in smooth muscle cell metabolism is yet to be determined, but they may provide valuable clues to the molecular mechanisms controlling the antiproliferative activity of heparin.

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John J. Castellot

A Smooth Muscle-Like Origin for Beige Adipocytes

Binding and internalization of heparin by vascular smooth muscle cells

Impaired Clearance of Apoptotic Cells Promotes Synergy between Atherogenesis and Autoimmune Disease

Sonic hedgehog regulates angiogenesis and myogenesis during post‐natal skeletal muscle regeneration

Effect of heparin on vascular smooth muscle cells. I. Cell metabolism

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