Cytokines in minimal change nephropathy

Parry, Robin Geoffrey

January 2000

No description available.

572.8

MECHANISMS UNDERLYING REGIOSELECTIVE ACUTE TUBULAR NECROSIS OF RENAL PROXIMAL TUBULAR SEGMENTS.

RUEGG, CHARLES EDWARD.

January 1987

The convoluted (CPT) and straight (SPT) portions of the renal proximal tubule are susceptible to injury by a wide variety of chemical agents. These agents often affect the CPT or SPT selectively by proposed mechanisms usually attributed to tubular concentration, blood flow delivery patterns and tubuloglomerular feedback responses within the intact kidney. The innate cellular responses to chemical exposures remain virtually unexplored. Hence, the basic goal of this research was to develop an in vitro system that was conducive to examining the innate cellular differences in susceptibility between the CPT and SPT following in vitro exposure to mercuric chloride (HgCl₂), potassium dichromate (K₂Cr₂O₇)$ or hypoxic conditions. A renal cortical slicing technique was developed for these studies to position the CPT and SPT within discrete regions of slices made perpendicular to the cortical-papillary axis. An incubation vessel that could maintain the morophological and biochemical viability of slices for at least 12 hr was also developed. The selective necrosis of CPT induced by K₂Cr₂O₇ or hypoxic exposure, and SPT induced by HgCl₂, observed in vivo was reproduced in renal cortical slices exposed in vitro. Innate cellular uptake mechanisms were then investigated since the tissue distribution of each metal was found to be most concentrated within their respective injured cell type. The transport of PAH, TEA, phosphate, sulfate, glutathione and cysteine were examined as potential mechanisms for selective accumulation of these metals. K₂Cr₂O₇ caused a dose-dependent reduction in the uptake rate of sulfate by cortical slices, while phosphate, PAH, and TEA uptake were unaffected. Although HgCl₂ has a high affinity for sulfhydryl groups its uptake as a complex to glutathione or cysteine was not enhanced. HgCl₂ also had no affect on the uptake rate of PAH or TEA even though both HgCl₂ and K₂Cr₂O₇ were able to reduce the steady state accumulation of these organic substrates.

Kidney tubules -- Wounds and injuries.

Kidneys -- Necrosis.

Diabetic Kidney Disease in the VCD Model of Menopause

Diamond-Stanic, Maggie Keck

January 2008

Kidney disease is a major complication of diabetes and accounts for one-third of all diabetes-related deaths. Estrogen is considered protective against cardiovascular and non-diabetic renal disease, however it is unclear if this protection extends to diabetes and diabetic kidney disease.To address these questions, we have used a new model of menopause in which repeated daily injections of 4-vinylcyclohexene (VCD) induces gradual ovarian failure in mice. Unlike with ovariectomy, the VCD model preserves the gradual transition into ovarian failure (OF) (modeling perimenopause). Also, following OF, the residual ovarian tissue is retained and secretes androgens, similar to the androgen production by postmenopausal human ovaries.The VCD model of menopause was combined with the streptozotocin (STZ) model of type 1 diabetes, and the development of diabetes and diabetic kidney damage were studied over the subsequent 6 weeks. We observed that blood glucose levels are higher in post-OF diabetic mice compared to cycling diabetic and peri-OF diabetic mice. Renal cell proliferation, an early marker of kidney damage, is increased in post-OF diabetic mice compared to cycling diabetic mice, as measured by expression of proliferating cell nuclear antigen. We also demonstrate that expression of α-smooth muscle actin is increased in post-OF diabetic mice compared to cycling diabetic mice. Five weeks after STZ injection, post-OF diabetic mice had higher rates of urine albumin excretion than cycling diabetic mice.Using real-time PCR, we identified changes in expression between post-OF diabetic and cycling diabetic mice of genes which have previously been associated with diabetic kidney damage. We also show that some of these changes occur in peri-OF diabetic mice as well. Using microarray, we identified 119 new genes which are regulated by the combination of ovarian failure and diabetes in the mouse kidney.These data support our hypothesis that the changes in hormones which occur during the transition into ovarian failure exacerbate the development and progression of diabetic kidney damage in mice. These data also highlight the utility and importance of the VCD model of menopause in the study of diabetic kidney damage.

diabetes

kidney

menopause

STZ

VCD

ovarian failure

Expression, function and conservation of the c-Ret proto-oncogene

Marcos-Gutierrez, Camelia Victoria

January 1997

No description available.

572.8

Kidney; Nervous system; Tyrosine kinase

Complement in the pathogenesis of immune mediated glomerular injury

Sheerin, Neil Stephen

January 2000

No description available.

610

Investigations into the development of the pronephros of Xenopus laevis

Brennan, Hannah Claire

January 1999

No description available.

590

Renal function in preterm babies

Coulthard, Malcolm George

January 2000

No description available.

612

Distribution of renal S100 proteins in physiological and pathological models

Brant, Stephen

January 2000

No description available.

572

Localisation and characterisation of the familial tumour gene, FWT1

Rahman, Nazneen

January 1999

No description available.

572.8

Wilms tumour; Childhood cancer; Kidney

Comparative analysis of the PKD1 gene and protein, polycystin-1

Hughes, Jim

January 1999

No description available.

572.8