P. Willsey scite author profile

P. Willsey

3Publications

53Citation Statements Received

0Citation Statements Given

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Affiliations

MGH Institute of Health Professions, Health Affairs, United States Department of Veterans Affairs

Publications

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Influence of recombinant human erythropoietin on blood pressure and tissue renin-angiotensin systems

Eggena

Willsey

Jamgotchian

et al. 1991

American Journal of Physiology-Endocrinology and Metabolism

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In humans, blockade of the renin-angiotensin system with angiotensin converting-enzyme inhibitors (ANG CEI) prevents the rise in blood pressure associated with the administration of recombinant human erythropoietin (rhEPO). This study was conducted to determine whether rhEPO elevates blood pressure in normal Wistar rats and whether the renin-ANG system is affected. Groups of 10 rats each were given rhEPO, ANG CEI (enalapril), rhEPO + ANG CEI, or vehicle. Renin and/or renin substrate mRNA was measured in aortas, kidney, and heart; renin activity (PRA), inactive renin, and renin substrate were measured in plasma. rhEPO raised blood pressure in the normal rat without changing the plasma renin system. ANG CEI prevented this blood pressure rise. Renin-specific mRNA was increased by rhEPO in renal tissue, and renin substrate mRNA was significantly elevated in the kidney and aorta. mRNA for renin and renin substrate were not altered in the heart. In both aorta and kidney, a significant correlation was observed between renin substrate mRNA and blood pressure. The data indicate that rhEPO modulates specific tissue renin-ANG systems, which may contribute to blood pressure elevation.

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Bile salts and ileal calcium transport in rats: a neglected factor in intestinal calcium absorption

Kayne

Willsey

et al. 1993

American Journal of Physiology-Gastrointestinal and Liver Physi

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Ileum displays little active transcellular calcium (Ca2+) absorption but is credited with the bulk of Ca2+ absorbed in vivo. We examined the effect of taurodeoxycholic acid (TDC, 2 mM), a bile salt, on mannitol (MN, a marker of intercellular solute traffic) and Ca2+ fluxes in rat ileum. In the absence of electrochemical gradients between the mucosal (M) and serosal (S) bathing media in an Ussing chamber, net flux (Jnet) was observed in the S-to-M direction for both MN and Ca2+, i.e., the unidirectional secretory S-to-M flux (Js-->m) exceeded the absorptive M-to-S flux (Jm-->s). Mucosal TDC caused simultaneous increase in transepithelial conductance and Js-->m for both MN and Ca2+. This was followed by even greater increases in MN and Ca2+ Jm-->s, so that ultimately Jm-->s equaled Js-->m in each case. In control tissue, Js-->m for Ca2+ appeared to permeate exclusively through the intercellular MN pathway while part of Jm-->s for Ca2+ appeared to traverse through a non-MN route. After the TDC-induced increase in intercellular solute permeability, both Ca2+ fluxes appeared to traverse through the aqueous MN conduit. During the postprandial state, the presence of bile salts and the relative abundance of Ca2+ in ileal lumen can cause bulk Ca2+ absorption through the intercellular pathway.

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An Animal Model To Evaluate Key Regulators of Endochondral Bone Growth in Renal Failure

et al. 1999

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P. Willsey

Influence of recombinant human erythropoietin on blood pressure and tissue renin-angiotensin systems

Bile salts and ileal calcium transport in rats: a neglected factor in intestinal calcium absorption

An Animal Model To Evaluate Key Regulators of Endochondral Bone Growth in Renal Failure

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