J.K. Scott scite author profile

J.K. Scott

5Publications

97Citation Statements Received

49Citation Statements Given

How they've been cited

196

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Affiliations

University of Virginia, University of Rochester, Lovelace Clinic Foundation Research

Publications

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Renin and angiotensinogen expression during the evolution of diabetes.

et al. 1992

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The expression of renin and angiotensinogen genes and their proteins were studied daring the progression of diabetes using adult BioBreeding spontaneously diabetic rats at 1 day and 2-12 months of diabetes. The number of renin-stained cells per juxtaglomerular apparatus was determined by immunocytochemistry. Initially, at 2 months of diabetes the number of renin-stained cells per juxtaglomerular apparatus increased significantly (p< 0.0001,2 months versus resistant groups) and was followed by a decrease in the number and intensity of renin-stained cells after 12 months of diabetes (/>=0.007, 2 months versus 12 months). A significant negative correlation was observed between the number of renin-containing cells and the duration of diabetes (r=0.99,p=0.014). Immunoreactive angiotensinogen was restricted to the proximal tubule and appeared increased after 4 and 8 months of diabetes as compared with the 2-and 12-month diabetic groups. Renin messenger RNA (mRNA) levels increased with the onset of diabetes and decreased markedly during chronic diabetes. At 1 day of diabetes, renin mRNA levels were 700% higher than at 12 months of diabetes. Angiotensinogen mRNA levels were unchanged. We conclude that diabetes results in an initial increase in renin gene expression, and as the duration of diabetes lengthens, there is a progressive decrease in renin gene expression and in the number of cells containing renin. These findings suggest that as the duration of diabetes and the age of the animal lengthens, there is a decrease in the number of cells expressing the renin gene. Physiological studies using the streptozocin rat model have suggested that the altered glomerular hemodynamics, namely, increased glomerular capillary pressure and decreased ultrafiltration coefficient, seen in diabetes are responsible for subsequent glomerular injury and decreased renal function.3 Angiotensin converting enzyme inhibition corrects the glomerular hemodynamic changes observed in diabetes and may arrest the progression of glomerular damage and renal

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Pharmacogenetics of Tolbutamide Metabolism in Humans

Scott

Poffenbarger

1978

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This study was designed to focus on the genetic control of tolbutamide disposition in humans and to provide insight into the potential for high accrued blood levels in individuals receiving fixed dosage regimens. Tolbutamide was administered intravenously to 42 nondiabetic subjects, eight of their relatives, and to five sets of twins. A ninefold variation in the rate of tolbutamide disappearance from plasma (Kd) was found. This variation was characterized by a trimodal frequency distribution, suggestive of monogenic inheritance and consistent with pedigree analysis, indicating autosomal transmission of rapid and slow inactivation of tolbutamide. A heritability value of 0.995 for Kd indicated little influence of environmental factors on variation of this rate. Interindividual differences in the binding of 35S-tolbutamide to serum proteins were also assessed. No correlation was found between tolbutamide serum protein binding affinity and Kd. Analysis of the metabolites of tolbutamide in urine samples provided evidence for the microsomal oxidation of the drug to hydroxytolbutamide as the primary site of genetic control. In conclusion, this study provides evidence for monogenic control of tolbutamide metabolism in man. The results suggest that fixed dosage regimens of this drug, as were prescribed in the controversial University Group Diabetes Program study, might lead to higher accrued blood levels in slow inactivators.

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Prevention of Diabetes in BB Rats: I. Evidence Suggesting a Requirement for Mature T Cells in Bone Marrow Inoculum of Neonatally Injected Rats

Scott

Engelhard

Curnow

et al. 1986

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Injection of major histocompatibility complex (MHC)-compatible bone marrow cells from normal animals into neonatal BB rats resulted in a striking decrease in incidence of diabetes and restoration of concanavalin A (ConA) and mixed lymphocyte responses. However, injection of bone marrow cells pretreated with anti-rat thymocyte antiserum plus complement to remove mature T cells had no effect on incidence of disease, suggesting that mature T cells in the bone marrow inoculum were responsible for prevention of diabetes. Because the decreased incidence of diabetes in rats injected with untreated bone marrow appeared to be unrelated to the extent of lymphopenia in these animals, the involvement of T cells in the onset of diabetes must reflect a defect in the normal function of these cells rather than their absolute number. Approximately 50% of the W3/13+ cells in the spleens of BB rats lacked the OX-8 and W3/25 T cell subset markers. The identity of this W3/13+, OX-8-, W3/25- blank subset remains to be established. Our results, interpreted in light of studies from the other laboratories, suggest the existence of multiple abnormalities in the BB rat, including the presence of T cells as effector or helper cells that augment onset of disease and the absence of a regulatory T cell circuit that could prevent the disease.

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A Five-year Inhalation Study with Natural Uranium Dioxide (UO2) Dust - I. Retention and Biologic Effect in the Monkey, Dog and Rat

Leach¹,

Maynard²,

Hodge³

et al. 1970

Health Physics

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Distribution and Excretion Studies in Dogs Exposed to an Aerosol Containing Polonium-210

Smith

Morrow

Gibb

et al. 1961

American Industrial Hygiene Association Journal

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J.K. Scott

Renin and angiotensinogen expression during the evolution of diabetes.

Pharmacogenetics of Tolbutamide Metabolism in Humans

Prevention of Diabetes in BB Rats: I. Evidence Suggesting a Requirement for Mature T Cells in Bone Marrow Inoculum of Neonatally Injected Rats

A Five-year Inhalation Study with Natural Uranium Dioxide (UO2) Dust - I. Retention and Biologic Effect in the Monkey, Dog and Rat

Distribution and Excretion Studies in Dogs Exposed to an Aerosol Containing Polonium-210

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