The effects of diet on the rate of triglyceride synthesis by rat liver homogenates was measured. Changes in triglyceride synthesis were correlated with the level of activity of L-aglycerophosphate acyltransferase, the enzyme catalyzing the first specific reaction in hepatic glycerolipid synthesis.Fasting for 48-72 hr depressed the synthesis of triglyceride from L-a-glycerophosphate. High carbohydrate diets, fed to rats for 6 days, resulted in increased triglyceride synthesis. Diets high in starch were less effective than high glucose, sucrose, or fructose diets in increasing triglyceride synthesis. Diets high in corn oil did not alter triglyceride synthesis. These studies established the importance of dietary factors in the regulation of hepatic triglyceride synthesis.L-a-GlycerophOsphate acyltransferase activity was measured after the same dietary changes. Both high carbohydrate and high fat diets resulted in increased enzyme specific activity. Fasting for 72 hr did not decrease activity. Thus, the specific activity of this enzyme did not correlate well with the measured rate of triglyceride synthesis indicating that other factors must participate in the regulation of triglyceride biosynthesis.
Renal function was studied in rats treated with cyclosporin A (CyA). Peroral CyA 25 mg kg-1 day-1 depressed glomerular filtration rate (GFR) from 1284 +/- 429 to 500 +/- 228 microliters min-1 g-1 kidney weight (KW) (P less than 0.01). Absolute rate of proximal tubular reabsorption (APR) decreased from 1075 +/- 437 to 468 +/- 203 microliters min g KW-1 (P less than 0.01). Proximal tubular fractional reabsorption (PFR) was 67.7 and 68.5% measured with the TT/OT and fractional lithium-clearance methods, respectively. Amiloride had no effect on lithium-clearance in CyA treated rats. Acute isotonic volume expansion increased GFR and APR towards normal, while PFR remained increased. Increased sodium clearance did not normalize renal function. CyA intravenously (12.5 mg kg-1) depressed GFR and APR acutely, while PFR increased. Proximal intratubular pressures were low normal (mean 11.6 mmHg). Proximal transit times were prolonged (mean 25.2 s, P less than 0.01). Renal morphology was normal. The data are evidence against a primary tubular damage of CyA, and makes it less likely that the major lesion is located to the glomerular membrane. The results suggest that CyA nephrotoxicity mainly is due to a haemodynamic effect.
The contention that cyclosporin A (CyA) nephrotoxicity may be due to renal afferent arteriolar constriction was inferred from rat studies showing CyA to increase renal vascular resistance, to reduce glomerular filtration rate (GFR) and delivery of tubular fluid from the end of the proximal tubule to the loop of Henle (Vprox), and to increase proximal fractional reabsorption. In order to test whether the mechanism of human CyA nephrotoxicity is similar to its rat analogue, and whether CyA treatment causes prolonged renal malfunction after drug withdrawal, renal function was investigated with clearance techniques including lithium clearance (CLi) as a measure of Vprox. The subjects were patients (n = 11) with previously normal renal function, given CyA in the treatment of ocular manifestation of extrarenal disease, or bone-marrow transplant recipients. Nine out of these eleven patients were investigated before and during CyA treatment: GFR (P less than 0.05) and Vprox (P less than 0.005) decreased while proximal fractional reabsorption increased (P less than 0.01). In six patients investigated before CyA was given, and re-examined a mean of 273 days (range 84-384 days) after CyA withdrawal, CLi was reduced (P less than 0.05) while mean GFR was not significantly lowered (0.5 greater than P greater than 0.2). In one of these six patients GFR was reduced to a subnormal value of 26 ml min-1 (1.73 m2 body surface)-1. In conclusion, human and rat CyA nephrotoxicity have the same pattern of renal functional deterioration. Cyclosporin A nephrotoxicity was evident in patients investigated a mean of 9 months after CyA withdrawal.
The pathogenesis and the mechanism of accelerated graft rejection in concordant xenotransplantation are unclear. The histopathological features and kinetics neither fulfill the criteria of classic hyperacute rejection nor resemble an accelerated type of first-set allograft reaction. The aim of this study was to investigate the mechanism of concordant xenograft rejection in relation to the early morphological changes in hamster hearts transplanted to unmodified rat recipients by sequential, immunohistological analysis of grafts, regional lymph nodes, and spleens and to correlate these results to the production of antidonor antibodies, as determined by a flow cytometric assay. Histopathological features were characterized by a gradually increasing myocytolysis with fragmentation and loss of myofilaments. The first slight signs were observed a few hours after transplantation. Later, vascular changes developed, evolving into a leukocytoclastic type of vasculitis, eventually with thrombosis. No significant interstitial lymphocyte infiltration was present, but neutrophilic granulocytes and macrophages appeared. In addition, a distinct increase in B cells in spleens and lymph nodes was noted. Low levels of preformed antidonor antibodies did not increase during the first 48 h; however, significant amounts of species-, but not donor-, specific antibodies were demonstrated at the time of rejection. These data, together with the morphological observations, indicate a primarily humoral xenograft rejection in this model. Minor damage to graft myocytes a few hours after transplantation, progressing to vascular changes within 24-48 h, further suggests that preformed antidonor antibodies directed against endothelial or myocyte determinants may play an initiating role in the pathogenesis of unmodified, concordant xenograft rejection.
Treatment with preoperative total lymphoid irradiation and post-transplant cyclosporin A has been shown to have a synergistic effect on graft survival in allo- and xenotransplantation. Specific monoclonal antibodies against T cells and T cell subpopulations could offer new ways of preventing graft rejection in xenotransplantation. Graft survival and histology were examined after total lymphoid irradiation plus cyclosporin A treatment versus cyclosporin A plus a monoclonal antibody in a concordant, heterotopic, hamster-to-rat heart transplantation model. Preoperative total lymphoid irradiation was given at a dose of 1.25 Gy, 12 times over a period of 3 weeks. Cyclosporin A at a dose of 12.5 mg/kg per day was administered perorally and OX-19, a pan T cell monoclonal antibody, was given as intraperitoneal injections at doses of 100 micrograms or 500 micrograms/kg per day from day 0 until graft rejection. While total lymphoid irradiation alone prolonged graft survival to 9.4 days, total lymphoid irradiation plus cyclosporin A extended graft survival to a mean of 22 days. Cyclosporin alone or combined with the monoclonal antibody could not increase graft survival significantly when compared to untreated animals, which rejected their grafts within 3.7 days. Vascular rejection was the characteristic morphological finding, even after some weeks of excellent graft function. In conclusion, total lymphoid irradiation and cyclosporin A had a synergistic effect on graft survival in this concordant xenotransplantation model, although recent impressive results from other groups could not be reproduced. Total lymphoid irradiation combined with cyclosporin A appears to delay a primary humoral graft rejection, while the mechanism of rejection, judged by histology, stays the same.
Heterotopic heart transplantations in an unmodified hamster‐to‐rat model were studied sequentially by immunohistochemical analysis. Monoclonal mouse anti‐rat antibodies against B cells, T cells, macrophages and neutrophilic granulocytes (MRC OX‐19, MRC OX‐38, MRC OX‐8, MRC OX‐22, MRC OX‐33, MRC OX‐41 and MRC OX‐42) were used in an indirect immunoperoxidase technique and monoclonal mouse anti‐rat IgM and IgG were used for immunofluorescence. In grafts investigated after 6 h (N = 8) minimal infiltration of macrophages was demonstrated with MRC OX‐41+ and MRC OX‐42+ cells. No T‐ or B cells were seen. In a few cases, deposition of IgG and IgM was seen related to the endothelium of larger vessels. In grafts examined 24 h after transplantation (N = 10) the number of MRC OX‐41+ and MRC OX‐42+ cells had increased and in half of the cases IgM and IgG were located in relation to endothelial cells of larger vessels. In grafts investigated 48 h after transplantation (N = 8) the infiltration with MRC OX‐41+ and MRC OX‐42+ cells had further increased and a few scattered MRC OX‐19+ and MRC OX‐8+ cells appeared. At this time all but one heart had deposition of IgG and IgM in the vessel walls. Upon complete rejection (N = 8) diffuse infiltration of MRC OX‐41+ and MRC OX‐42+ cells was seen, but still only a few scattered T cells could be demonstrated. At this time IgG an IgM deposition appeared in all vessels and was also located in relation to the capillaries. These results further support our hypothesis that acute xenograft rejection in this animal model is primarily of the humoral type.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.