Thomas Lattmann

Obesity Is Associated With Tissue-Specific Activation of Renal Angiotensin-Converting Enzyme In Vivo: Evidence for a Regulatory Role of Endothelin

In the C57BL/6J mice model, we investigated whether obesity affects the function or expression of components of the tissue renin-angiotensin system and whether endothelin (ET)-1 contributes to these changes. ACE activity (nmol. L His-Leu. mg protein(-1)) was measured in lung, kidney, and liver in control (receiving standard chow) and obese animals treated for 30 weeks with a high-fat, low cholesterol diet alone or in combination with LU135252, an orally active ET(A) receptor antagonist. ACE mRNA expression was measured in the kidney, and the effects of LU135252 on purified human ACE were determined. Aortic and renal tissue ET-1 protein content was measured, and the vascular contractility to angiotensin II was assessed. Obesity was associated with a tissue-specific increase in ACE activity in the kidney (55+/-4 versus 33+/-3 nmol/L) but not in the lung (34+/-2 versus 32+/-2 nmol/L). Long-term LU135252 treatment completely prevented this activation (13.3+/-0.3 versus 55+/-4 nmol/L, P<0.05) independent of ACE mRNA expression, body weight, or renal ET-1 protein but did not affect pulmonary or hepatic ACE activity. Obesity potentiated contractions in response to angiotensin II in the aorta (from 6+/-2% to 33+/-5% KCl) but not in the carotid artery (4+/-1% to 3.6+/-1% KCl), an effect that was completely prevented with LU135252 treatment (6+/-0.4% versus 33+/-5% KCl). No effect of LU135252 on purified ACE was observed. Thus, obesity is associated with the activation of renal ACE in vivo independent of its mRNA expression and enhanced vascular contractility to angiotensin II. These effects are regulated by ET in an organ-specific manner, providing novel mechanisms by which ET antagonists may exert organ protection.

Role of Podocytes for Reversal of Glomerulosclerosis and Proteinuria in the Aging Kidney After Endothelin Inhibition

The cause of focal-segmental glomerulosclerosis as a consequence of physiological aging, which is believed to be inexorable, is unknown. This study investigated whether inhibition of endothelin-1, a growth-promoting peptide contributing to renal injury in hypertension and diabetes, affects established glomerulosclerosis and proteinuria in the aged kidney. We also determined the role of endothelin receptors for podocyte injury in vivo and in vitro. Aged Wistar rats, a model of spontaneous age-dependent glomerulosclerosis, were treated with the orally active endothelin subtype A (ETA) receptor antagonist darusentan, and evaluation of renal histology, renal function studies, and expression analyses were performed. In vitro experiments using puromycin aminonucleoside to induce podocyte injury investigated the role of ETA receptor signaling for apoptosis, cytoskeletal injury, and DNA synthesis. In aged Wistar rats, established glomerulosclerosis and proteinuria were reduced by >50% after 4 weeks of darusentan treatment, whereas blood pressure, glomerular filtration rate, or tubulo-interstitial renal injury remained unaffected. Improvement of structural injury in glomeruli and podocytes was accompanied by a reduction of the expression of matrix metalloproteinase-9 and p21Cip1/WAF1. In vitro experiments blocking ETA receptors using specific antagonists or RNA interference prevented apoptosis and structural damage to podocytes induced by puromycin aminonucleoside. In conclusion, these results support the hypothesis that endogenous endothelin contributes to glomerulosclerosis and proteinuria in the aging kidney. The results further suggest that age-dependent glomerulosclerosis is not merely a “degenerative” but a reversible process locally confined to the glomerulus involving recovery of podocytes from previous injury.

Activation of Pro-Inflammatory and Anti-Inflammatory Cytokines in Host Organs During Chronic Allograft Rejection: Role of Endothelin Receptor Signaling

This study investigated whether allograft rejection is associated with local inflammatory activation in host organs and whether endothelin ETA receptor signaling is involved. Expression of IL‐1β, IL‐1ra, IL‐6, IL‐10 and TNF‐α was investigated in host liver, lung and native heart in a rat model of chronic rejection 8 weeks after heterotopic cardiac transplantation in the absence of immunosuppression. In the presence of rejection, circulating levels of cytokines increased, while tissue level activation was dependent on the organ involved. Similarly, tissue‐specific regulatory patterns were observed regarding transcriptional activation. Although chronic ETA receptor blockade did not reduce transplant vasculopathy or tissue protein expression, treatment had pronounced effects on plasma levels and transcriptional regulation of chemokines. These data provide evidence for distinct pro‐inflammatory local activation in host organs during chronic rejection and suggest a role for ETA receptors contributing to regulation of cytokine plasma levels and transcriptional activity.

Inverse regulation of endothelin-1 and nitric oxide metabolites in tissue with aging : Implications for the age-dependent increase of cardiorenal disease

Aging is an independent risk factor for cardiovascular and renal disease. The study reported here investigated whether aging affects endothelin-1 (ET-1) and tissue levels of the nitric oxide metabolites nitrite/nitrate in the kidney of rodents. Blood pressure was measured by the tail-cuff method, ET-1 protein was determined by radioimmunoassay/high-performance liquid chromatography (RIA/HPLC) and nitrite/nitrate was measured by ion-pairing chromatography. Compared to young male Wistar Kyoto rats (3 months of age), renal ET-1 protein levels in whole kidneys increased 3.6-fold at 24 months of age (from 70 +/- 9 to 253 +/- 43 pg/g tissue, p < 0.05, n = 6 each group). Similarly, renal ET-1 protein increased 1.7-fold in 18-month-old C57BL/6J mice as compared to 8-month-old adult animals (from 188 +/- 18 to 319 +/- 14 pg/g tissue, p < 0.05, n = 5-7). In female RoRo-Wistar rats (6, 18 and 33 months of age), tissue nitrite/nitrate levels in whole kidneys decreased with increasing age (from 232 +/- 25 to 130 +/- 6 micromol/l/g tissue, p < 0.05). Thus, aging in healthy rodents is associated with a marked upregulation of renal ET-1 protein content and a decrease in tissue nitrite/nitrate levels in whole kidneys, independent of blood pressure. Activation of the ET pathway with aging may promote the development of age-dependent diseases such as glomerulosclerosis, hypertension and atherosclerosis.

Endothelin regulates angiotensin-converting enzyme in the mouse kidney

Using the orally active endothelin-A- (ET(A)) receptor antagonist LU135252, we determined whether endothelin-1 (ET-1) and/or dietary fat may be involved in angiotensin-converting enzyme (ACE) regulation in vivo. In C57BL6/J mice, renal and pulmonary tissue ACE activity (nmol/l His-Leu/mg protein) was measured and ACE mRNA expression, tissue ET-1 protein content and nitrite/nitrate level were measured in the kidney. Western-type diet increased renal ACE activity by 70% (55 +/- 4 vs 33 +/- 3 nmol/l His-Leu/mg protein, p < 0.05) and increased renal ET-1 levels (267 +/- 19 pg/g vs 190 +/- 18, p < 0.05). Chronic LU135252 treatment completely prevented activation of renal ACE activity (13.3 +/- 0.3 His-Leu/mg protein nmol/l, p < 0.05) independent of ACE mRNA expression or renal ET-1 protein levels. Thus, dietary fat activates renal ACE activity and ET-1 is involved in regulation of tissue ACE activity in vivo independently of ACE mRNA expression.

Acute effects of 17 beta-oestradiol on functional activity of endothelin-converting enzymes in human arteries and veins.

In this study, we investigated the short-term effect of 17 beta-oestradiol on functional enzyme activity (FEA) of endothelin-converting enzymes in vitro using human internal mammary arteries (n=7-8) and human saphenous veins (n=16-17) obtained from patients undergoing coronary artery bypass graft surgery. Vascular rings were preincubated with either solvent control (0.2% ethanol) or 17 beta-oestradiol (1 microM) for 30 min and concentration-response curves to big ET-1 (0.1-100 nM) or ET-1 (0.1-100 nM) were performed. FEA for each concentration was calculated as the percentage activity [(contraction to big ET-1/contraction to ET-1)x100] normalized to KCl (100 mM). In control experiments, at low concentrations FEA was lower in internal mammary arteries than in saphenous veins (P<0.05). While FEA was suppressed in saphenous veins by 10 nM (4+/-1 versus 22+/-5%, P<0.01) and 30 nM (26+/-4 versus 48+/-7%, P<0.05) 17 beta-oestradiol, FEA was markedly enhanced in internal mammary arteries by 10 nM (33+/-12 versus 1+/-1%, P<0.001) and 30 nM (44+/-12 versus 8+/-3%, P<0.01) 17 beta-oestradiol. FEA was not affected by 100 nM 17 beta-oestradiol. These results demonstrate for the first time that short-term exposure to 17 beta-oestradiol affects FEA in vitro. Human internal mammary arteries have lower FEA than the saphenous veins, but FEA is differentially affected by acute exposure to 17 beta-oestradiol in human arteries and veins. Whether changes in FEA play a role in the vascular effects of 17 beta-oestradiol in vivo remains to be determined.