Sandra Jemelka scite author profile

The role of differentiated vascular myocytes in neointimal formation in canine carotid artery was investigated. Using antibodies and cDNA probes, cells were characterized in situ and after isolation. In situ characterization indicated the majority of medial cells expressed both smooth muscle myosin and alpha actin but many cells were negative to these markers. All adventitial cells were negative for these proteins. The muscle protein-positive cells were designated differentiated, vascular myocytes (VSMC). The others were designated type 2 cells. Sequential enzyme digestion from the lumenal surface yielded VSMC ( Ͼ 90%) while digestions from the adventitial surface yielded type 2 cells ( Ͼ 90%). VSMC were viable in culture but did not spread, proliferate, or alter expression of muscle proteins. Type 2 cells proliferated and increased their expression of muscle actin but did not express muscle myosin. Characterization of neointimal cells from injured carotid arteries indicated they were morphologically and immunologically identical to cultured type 2 cells. We concluded that: ( a ) canine carotid artery media consists of a heterogeneous cell population; ( b ) serum does not stimulate isolated VSMC to undergo phenotypic modulation or proliferate; and ( c ) type 2 cells may be responsible for neointimal formation because they proliferate and acquire a phenotype identical to in situ neointimal cells. ( J. Clin. Invest. 1996. 97:814-825.)

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Expression of Plasma Membrane Calcium ATPases in Phenotypically Distinct Canine Vascular Smooth Muscle Cells

Abramowitz¹,

Aydemir-Koksoy²,

Helgason³

et al. 2000

Journal of Molecular and Cellular Cardiology

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Intracellular Na+ regulation of Na+ pump sites in cultured vascular smooth muscle cells

Allen

Navran

Seidel

et al. 1989

American Journal of Physiology-Cell Physiology

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Enzymatically dispersed cells from canine saphenous vein and femoral artery were grown in fetal calf serum and studied at day 0 (freshly dispersed) through confluence in primary culture. Intracellular Na levels (Nai), but not intracellular K (Ki), were increased after 24 h in culture and then decreased to a steady state by 4 days. Na+ pump site number [( 3H] ouabain binding) increased through day 3 and remained elevated. Nai was still elevated at 2 days when the Na+ pump site number began to increase. Total pump turnover (maximum ouabain-inhibited 86Rb uptake) reflected the increase in Na+ pump site number. These key events precede the observed increases in both protein production and cellular proliferation. If the same cells are maintained in defined medium, without fetal calf serum, Nai, Ki, and the number of [3H]ouabain binding sites do not change with time. These data are consistent with the suggestion that the initial mitogenic response of vascular smooth muscle cells to fetal calf serum involves an increased Na+ influx, and a Nai accumulation, caused by low Na+ pump density. The synthesis of new pump sites effects a decrease in the accumulated Nai, which may be related to cell proliferation.

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αIT Can Support Na⁺, K⁺ ‐ATPase: Na⁺ Pump Functions in Expression Systems

Allen

Zhao

Odebunmi

et al. 1997

Annals of the New York Academy of Sciences

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Sandra Jemelka

Differentiated vascular myocytes: are they involved in neointimal formation?

Expression of Plasma Membrane Calcium ATPases in Phenotypically Distinct Canine Vascular Smooth Muscle Cells

Intracellular Na+ regulation of Na+ pump sites in cultured vascular smooth muscle cells

αIT Can Support Na⁺, K⁺ ‐ATPase: Na⁺ Pump Functions in Expression Systems

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Sandra Jemelka

Differentiated vascular myocytes: are they involved in neointimal formation?

Expression of Plasma Membrane Calcium ATPases in Phenotypically Distinct Canine Vascular Smooth Muscle Cells

Intracellular Na+ regulation of Na+ pump sites in cultured vascular smooth muscle cells

αIT Can Support Na+, K+ ‐ATPase: Na+ Pump Functions in Expression Systems

Contact Info

Product

Resources

About

αIT Can Support Na⁺, K⁺ ‐ATPase: Na⁺ Pump Functions in Expression Systems