Urinary gene expression as a marker of glomerular podocyte injury and disturbance of renin-angiotensin system in patients with diabetic nephropathy.

摘要

Diabetic nephropathy (DN) is one of the leading causes of end stage renal disease (ESRD) in western world and has a trend to spread in developing countries. Pathogenesis of DN is not fully elucidated. Studies of recent years showed that podocyte loss and activation of the rennin-angiotensin system (RAS), especially intra-renal RAS, played important roles in this process. Although renal biopsy is currently the most common way used to determine the expression pattern of podocyte and RAS associated molecules in DN, this invasive procedure has its own risk and is not practical for serial monitoring. We hypothesized that measurement of messenger ribonucleic acid (mRNA) expression of related genes in the urinary sediment might be a useful way to assess the severity of DN.;In this series of work, we investigated (i) the relation between the gene expression profile of podocyte-associated molecules and RAS related molecules in the urinary sediment and the severity of DN, including clinically defined parameter of disease severity, histological scarring, and the degree of intra-renal podocyte loss, (ii) the relation between urinary and intra-renal gene expression of patients with DN, (iii) the application of urinary gene expression on the monitoring of disease progression and therapy response of DN. The urinary mRNA expression of related genes was quantified by real-time quantitative polymerase chain reaction (RT Q-PCR). The intra-renal mRNA expression of related genes was studied from the histologic specimens of kidney biopsy by laser catapult microdissection (LCM) and RT Q-PCR. The degree of renal scarring was determined by morphometric analysis. Glomerular podocyte number was determined by stereological study on serial sections of renal biopsy specimen.;Firstly, we found that urinary mRNA expressions of podocyte-associated molecules nephrin, podocin, synaptopodin, Wilm's tumor-1 (WT-1) and alpha-actinin-4 were higher in patients with DN than in healthy controls, and urinary nephrin, podocin and synaptopodin expression was related to proteinuria and baseline renal function. In addition, there was a close relationship between urinary mRNA expression of type 2 angiotensin converting enzyme (ACE2), a key element of RAS, and the degrees of proteinuria, renal function and rate of decline of glomerular filtration rate (GFR). Urinary mRNA expression of ACE also inversely correlated with the rate of renal function decline.;In the next step, we studied the change in urinary mRNA expression of nephrin, podocin, synaptopodin, ACE and ACE2 in patients with DN treated with angiotensin converting enzyme inhibitor (ACEI) and addition of angiotensin receptor blocker (ARB). We found that urinary mRNA expression of podocin, synaptopodin and propably nephrin increased with disease progression, and percentage change in urinary podocin expression negatively correlated with rate of decline of GFR. Furthermore, serial measurement of urinary expression of nephrin and possibly synaptopodin may reflect therapeutic response to ARB in these patients. Urinary mRNA expression of ACE and ACE2, however, remained unchanged during the study duration and did not correlate with therapeutic response.;We then examined the relation between urinary gene expression and histological changes in the kidney. We found that urinary WT-1 expression correlated with the degree of kidney fibrosis. Unlike intra-renal expression, urinary mRNA expression of podocyte associated molecules did not correlate with glomerular podocyte number. There was also no association between urinary and intra-renal mRNA expression.;Taken together, our results suggest that although urinary mRNA expression of podocyte and RAS associated molecules is not related to intra-renal expression, urinary expression has the potential to be used as a non-invasive tool to assess the severity and progression of DN, and serial measurements of urinary gene expression of podocyte associated molecules may be used to reflect therapy response for patients with DN. Our findings also indicate that the information from urinary gene expression is supplementary to, but not a surrogate of, the data obtained from renal biopsy.