F. Melinda Carver scite author profile

F. Melinda Carver

5Publications

173Citation Statements Received

84Citation Statements Given

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404

153

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Affiliations

East Carolina University, University Medical Center

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Insulin resistance in adult rat offspring associated with maternal dietary fat and alcohol consumption

Elton

Pennington

Lynch³

et al. 2002

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Maternal diet during pregnancy has been reported to alter the offspring's ability to respond to a glucose challenge. The current studies report changes in basal and insulinstimulated, in vitro glucose uptake in red (soleus) and white (extensor digitorum longus) muscle fiber types, as well as whole body insulin responsiveness of adult rat offspring associated with their mother's dietary fat and alcohol content during pregnancy.The offspring of Harlan-derived Sprague-Dawley female rats, dosed during pregnancy with ethanol (ETOH) via a liquid diet (35% of calories as ETOH) with either 12% or 35% of calories as fat, were compared with offspring from litters whose mothers were pair-fed an isocaloric amount of the liquid diet without ETOH. Maternal access to the liquid diets was terminated on day 20 of the pregnancies (sperm plug=day 0). The offspring were surrogate fostered within 48 h of birth to mothers which had consumed commercial chow throughout their pregnancy. Following weaning at 21 days of age, the offspring consumed only commercial rat chow and they were examined over the next 14 months for changes in glucose homeostasis as a consequence of in utero exposure to maternal dietary fat and/or alcohol.The 35% maternal fat diet resulted in both in vivo and in vitro decreases in insulin sensitivity. Thus, compared with adults whose mother's diet contained 12% fat, significant, in vitro muscle and in vivo whole body insulin resistance (measured by hyperinsulinemiceuglycemic clamping) was observed in adult rats whose mothers consumed 35% of dietary calories as fat. The addition of ethanol to the maternal 35% fat diet further reduced the offspring's red muscle tissues in vitro response to insulin, but did not affect whole body insulin sensitivity. Muscle basal and insulin-stimulated receptor tyrosine kinase activity were significantly decreased (] 50%) by the 35% fat maternal diet but there was no compensatory increase in serum insulin or glucose levels.Based upon both in vivo and in vitro data, these studies suggested that in utero exposure to 35% fat has a sustained effect on the adult offspring's glucose uptake/insulin sensitivity and that the effect is paralleled, at least in part, by decreased insulin receptor tyrosine kinase activity. In utero ETOH exposure resulted in the loss of basal and insulin-stimulated, in vitro glucose uptake in red muscle fibers but maternal dietary ETOH had no detectable effect on either in vivo insulin sensitivity or muscle tyrosine kinase activity.

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Kidney Allograft Tolerance in Primates Without Chronic Immunosuppression-the Role of Veto Cells

Thomas

Carver²,

Cunningham³

et al. 1991

Transplantation

134

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Further Studies of Veto Activity in Rhesus Monkey Bone Marrow in Relation to Allograft Tolerance and Chimerism

Carver²,

et al. 1994

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Differential expression of glucose transporters during chick embryogenesis

Carver¹,

Shibley²,

Pennington

et al. 2001

CMLS, Cell. Mol. Life Sci.

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The patterns of Glut1 and Glut3 glucose transporter protein and mRNA expression were assessed during embryogenesis of chicken brain and skeletal muscle, Glut4 protein levels were also evaluated in skeletal muscle and heart, and Glut1 was examined in the developing heart and liver. Glut1 protein expression was detectable throughout brain ontogeny but was highest during early development. Glut1 mRNA levels in the brain remained very high throughout development. Glut3 protein was highest very early and very late and mRNA was highest during the last half of development. In embryonic skeletal muscle, the levels of Glut1 and Glut3 proteins and mRNA were highest very early, and declined severely by mid-development. Glut1 protein and mRNA in the heart also peaked early and then decreased steadily. Although Glut1 mRNA levels were consistently high in the embryonic liver, Glut1 protein expression was not detected. These results suggest that (1) Glut1 is developmentally regulated in chick brain, skeletal muscle, and heart, (2) Glut1 mRNA is present in liver but does not appear to be translated, (3) Glut3 in brain increases developmentally but is virtually absent in muscle, and (4) Glut4 protein and mRNA appear to be absent from chick heart and skeletal muscle.

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Long-term Incompatible Kidney Survival in Outbred Higher Primates without Chronic Immunosuppression

et al. 1983

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Transplantation between non-identical humans has been limited by the requirement for chronic immunosuppression (CI). This study demonstrates in a nonhuman primate model that long-term acceptance of incompatible kidney allografts can be achieved without the use of CI. Following incompatible kidney transplantation, rhesus monkey recipients were given a 5-day course of clinical rabbit antithymocyte globulin (RATG). On day 12, unfractionated donor bone marrow (BM) was infused intravenously. Recipients were monitored for T-cell levels and T-cell subset levels with monoclonal antibodies and for responses in one way MLR. Graft survival in untreated control animals was 9.2 +/- 2.8 days. In six animals given RATG only, all died of rejection at a mean 35.8 +/- 5.7 days. Of five animals given RATG and donor BM (mean 2.5 RhLA mismatches, mean MLC 12.7), four are alive at 150 days, 248 days, 342 days, and 401 days (median 248 days). The ATG-BM infused group showed a prolonged imbalance of their OKT4/OKT8 cell ratio and cellular suppression of MLR responsiveness. The long-term survival obtained in these outbred primates is apparently due to a synergistic immunoregulatory effect induced by the RATG and donor BM. The model described is apparently the first report of long-term survival of outbred higher primates without CI and may represent a technique for producing tolerance without CI in the human.

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F. Melinda Carver

Insulin resistance in adult rat offspring associated with maternal dietary fat and alcohol consumption

Kidney Allograft Tolerance in Primates Without Chronic Immunosuppression-the Role of Veto Cells

Further Studies of Veto Activity in Rhesus Monkey Bone Marrow in Relation to Allograft Tolerance and Chimerism

Differential expression of glucose transporters during chick embryogenesis

Long-term Incompatible Kidney Survival in Outbred Higher Primates without Chronic Immunosuppression

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