Attila Fintha

Transforming growth factor-β-induced alpha-smooth muscle cell actin expression in renal proximal tubular cells is regulated by p38β mitogen-activated protein kinase, extracellular signal-regulated protein kinase1,2 and the Smad signalling during epithelial–myofibroblast transdifferentiation

BACKGROUND Transforming growth factor-beta (TGFbeta)-induced epithelial-myofibroblast transdifferentiation is a central mechanism contributing to the pathogenesis of progressive tubulo-interstitial fibrosis. We wanted to dissect the role of extracellular signal-regulated protein kinase (ERK1,2), p38 mitogen-activated protein kinase (p38 MAPK) and the receptor-regulated Smad proteins in the regulation of alpha-smooth muscle cell actin (alphaSMA) expression, a hallmark of myofibroblast formation, induced by TGFbeta in renal proximal tubular cells. METHODS Activation of signalling molecules was assessed by western blotting using phospho-specific antibodies. To specifically interfere with signalling cascades, porcine proximal tubular cells (LLC-PK/AT1) were infected with recombinant replication-deficient adenoviruses. In other experiments, specific kinase inhibitors were used. The alphaSMA synthesis was assessed by western blotting or immunofluorescent staining of cellular alphaSMA. To assess the regulation of the alphaSMA promoter, tubular cells were transiently transfected with a 785 bp alphaSMA promoter-luciferase reporter construct and vectors interfering with the Smad pathway. RESULTS Blocking ERK1,2 activation with PD98059 or p38 MAPK with SB 203580 potently inhibited the TGFbeta-induced alphaSMA synthesis in renal tubular cells. Adenoviral expression of dominant negative (DN) p38beta but not of p38alpha potently inhibited alphaSMA expression. Furthermore, adenoviral expression of DN MKK6b but not of DN MKK3b caused a substantial inhibition of the TGFbeta effect, confirming the role of p38beta in the regulation of TGFbeta-induced alphaSMA expression. Finally, inhibiting the Smad pathway with adenovirally delivered Smad7 and DN Smad3 also blocked TGFbeta-induced alphaSMA synthesis. CONCLUSION TGFbeta-induced alphaSMA expression is regulated by the coordinated activation of a complex system of parallel MAPK and Smad signalling pathways in renal proximal tubular cells during epithelial-mesenchymal transdifferentiation.

Expression of Claudins and Their Prognostic Significance in Noninvasive Urothelial Neoplasms of the Human Urinary Bladder

The members of the claudin family are major integral transmembrane protein constituents of tight junctions. Normal and neoplastic tissues can be characterized by unique qualitative and quantitative distribution of claudin subtypes, which may be related to clinicopathological features. Differential diagnosis and prognosis of nonmuscle invasive tumor entities of urinary bladder epithelium are often challenging. The aim was to investigate the expression profile of claudins in inverted urothelial papillomas (IUPs), urothelial papillomas (UPs), papillary urothelial neoplasms of low malignant potential (PUNLMPs), and intraepithelial (Ta), low-grade urothelial cell carcinomas (LG-UCCs) in order to reveal potential prognostic and differential diagnostic values of certain claudins. Claudin-1, -2, -4, and -7 protein expressions detected by immunohistochemistry and clinical data were analyzed in 15 IUPs, 20 UPs, 20 PUNLMPs, and 20 LG-UCCs. UPs, PUNLMPs, and LG-UCCs showed significantly decreased claudin-1 expression in comparison to IUPs. LG-UCCs expressing claudin-4 over the median were associated with significantly shorter recurrence-free survival. PUNLMPs expressing claudin-1 over the median revealed significantly longer recurrence-free survival. High claudin-1 protein expression might help to differentiate IUP from UPs, PUNLMPs, and LG-UCCs. High claudin-4 expression may determine an unfavorable clinical course of LG-UCCs, while high claudin-1 expression in PUNLMP was associated with markedly better clinical outcome.

Oscillating Cortical Thick Ascending Limb Cells at the Juxtaglomerular Apparatus

While studying the intracellular calcium dynamics in cells of the macula densa, the observation was made that tubular epithelial cells located near the macula densa and associated with the renal arterioles exhibit spontaneous Ca2+ oscillations. In this study, the cortical thick ascending limb-distal tubule, with attached glomerulus, was isolated and perfused. At a low luminal sodium chloride concentration, Ca2+ oscillations at a frequency of 63 mHz were observed in tubular cells that were within 100 microm of the macula densa plaque using four-dimensional multiphoton microscopy and wide-field fluorescence microscopy with fura-2. The Ca2+ oscillations were absent in the macula densa cells. Spontaneous oscillations in basolateral membrane potential suggested that Ca2+ oscillations occurred, at least in part, through depolarization-induced increases in Ca2+ entry. The amplitude of these Ca2+ oscillations was significantly enhanced by the activation of the Ca2+-sensing receptor. Increasing the luminal sodium chloride concentration or luminal flow resulted in a significant increase in both the amplitude of Ca2+ oscillations and the intracellular Ca2+ concentration in perimacular cortical thick ascending limb cells. In addition, luminal furosemide attenuated the [NaCl]L-dependent changes in intracellular Ca2+ concentration, but hydrochlorothiazide had no effect. These findings demonstrate that tubular epithelial cells at the perimeter of the macula densa exhibit spontaneous oscillations in intracellular Ca2+ concentration, enhanced by tubular flow and luminal sodium chloride. These oscillatory patterns may play a role in juxtaglomerular signaling.

Changes of protein expression in prostate cancer having lost its androgen sensitivity

ObjectiveThe majority of prostate cancers require androgen hormones for growth, and androgen ablation is an important part of the systemic treatment of advanced prostate cancer. Nevertheless, most of these cancers eventually relapse as they become less sensitive to androgen ablation and anti-androgen treatment. Elucidating the molecular events that are responsible for the conversion of androgen-sensitive cancers to androgen-refractory tumors may reveal new therapeutic opportunities.MethodsIn the present study, we investigated nine androgen-sensitive and nine androgen-refractory prostate cancer samples to evaluate the expression levels of 10 selected proteins that have been implicated in oncogenesis and cancer progression.ResultsOur immunohistochemical data show that three of the investigated proteins (i.e., minichromosome maintenance-2, methylguanine-DNA methyltransferase, and androgen receptor) are expressed at significantly different levels in the androgen-refractory cancer samples than in the androgen-sensitive tumors, whereas the expression levels of the seven other studied proteins (i.e., β-catenin, p27, p21, p16, Ki67, hypoxia-inducible factor 1 alpha, and geminin) are not significantly different regarding the two groups.ConclusionsOur data suggest that the increased expression of minichromosome maintenance-2 and decreased expression of methylguanine-DNA methyltransferase related to androgen receptor are indicative of the androgen-refractory stage in prostate cancer. Further studies are required to determine whether these expression changes play a causative role in the transition of androgen-sensitive to androgen-refractory prostate cancer.

Amyloid Beta Peptide 1-40 Stimulates the Na+ / Ca2+ Exchange Activity of SNCX

The Na+/Ca2+ exchangers, RNCX and SNCX, were cloned from mesangial cells of salt sensitive and salt resistant Dahl/Rapp rats, respectively, and differ at amino acid 218 (RNCXi/SNCXf) and in the exons expressed at the alternative splice site (RNCXB, D/SNCXB, D, F). These isoforms are also expressed in myocytes, neurons, and astrocytes where they maintain cytosolic calcium homeostasis. We demonstrated that cells expressing SNCX were more susceptible to oxidative stress than cells expressing RNCX. Others demonstrated that amyloid beta peptide (Abeta) augments the adverse effects of oxidative stress on calcium homeostasis. Therefore, we sought to assess the effect of Abeta 1-40 on the abilities of OK-PTH cells stably expressing RNCX and SNCX and human glioma cells, SKMG1, to regulate cytosolic calcium homeostasis. Our studies showed that Abeta 1-40 (1 microM) did not affect RNCX activity, as assessed by changes in [Ca2+]i (Delta[Ca2+]i, 260+/-10 nM to 267+/-8 nM), while stimulating exchange activity 2.4 and 3 fold in cells expressing SNCX (100+/-8 to 244+/-12 nM) and in SKMG1 cells (90+/-11 nM to 270+/-18 nM), respectively. Our results also showed that Abeta 1-40, while not affecting the rate of Mn2+ influx in cells expressing RNCX, stimulated the rate of Mn2+ influx 2.8 and 2.9 fold in cells expressing SNCX and in SKMG1 cells. Thus, our studies demonstrate that Abeta-induced cytosolic calcium increase is mediated through certain isoforms of the Na+/Ca2+ exchanger and reveals a possible mechanism by which Abeta 1-40 can alter cytosolic calcium homeostasis.

Alterations in SCAI Expression during Cell Plasticity, Fibrosis and Cancer

Suppressor of cancer cell invasion (SCAI) has been originally characterized as a tumor suppressor inhibiting metastasis in different human cancer cells, and it has been suggested that SCAI expression declines in tumors. The expression patterns and role of SCAI during physiological and pathophysiological processes is still poorly understood. Earlier we demonstrated that SCAI is regulating the epithelial-mesenchymal transition of proximal tubular epithelial cells, it is downregulated during renal fibrosis and it is overexpressed in Wilms’ tumors. Here we bring further evidence for the involvement of SCAI during cell plasticity and we examine the prognostic value and expression patterns of SCAI in various tumors. SCAI prevented the activation of the SMA promoter induced by angiotensin II. SCAI expression decreased in a model of endothelial-mesenchymal transition and increased during iPS reprogramming of fibroblasts. During renal fibrosis SCAI expression declined, as evidenced in a rat model of renal transplant rejection and in TGF-β1 overexpressing transgenic mice. High expression of SCAI correlated with better survival in patients with breast and lung cancers. Intriguingly, in the case of other cancers (gastric, prostate, colorectal) high SCAI expression correlated with poor survival of patients. Finally, we bring evidence for SCAI overexpression in colorectal cancer patients, irrespective of stage or metastatic status of the disease, suggesting a diverse role of SCAI in various diseases and cancer.

The importance of genetic testing in adolescent-onset steroid-resistant nephrotic syndrome - Case report/ Importanţa testării genetice la adolescenţii cu sindrom nefrotic corticorezistent – Prezentări de caz

Abstract Approximately 10-20% of children and 40% of adults with idiopathic nephrotic syndrome are steroid resistant and progress to end-stage renal disease requiring dialysis or renal transplantation. In these cases, renal histology typically shows focal segmental glomerulosclerosis. Mutations in NPHS1, NPHS2, WT1, CD2AP and ACTN4 genes located on different chromosomes, expressed by glomerular podocytes, have been identified in patients with steroid-resistant nephrotic syndrome. The authors report two cases of adolescent-onset steroid-resistant nephrotic syndrome. Both cases had similar clinical and histopathological manifestations, with different prognosis and evolution due to different mechanisms leading to proteinuria: an acquired and a genetic form. The first case, a 16 year old girl presented the onset of the disease with massive, generalized edema, secondary hypothyroidism and high blood pressure. Evolution was favorable under cyclosporine therapy. The second case, a 13-years-old adolescent girl, presented an insidious onset of the disease with mild edema. Genetic testing revealed a mutation in the WT1 gene. The patient developed end-stage kidney failure eight months after the onset of the disease and following kidney transplant had a favorable evolution. Histological examination of the renal biopsy specimen showed focal segmental glomerulosclerosis in both cases. Conclusions: Genetic forms of nephrotic syndrome do not respond to immunosuppressive therapy and may progress to end-stage renal disease, but after kidney transplantation relapse is not expected, in contrast to the immune form. The early genetic diagnosis in steroid-resistant nephrotic syndrome is time-consuming, but is important for proper clinical management of the patients, prognosis and genetic counseling of the families. Rezumat Autorii prezintă două cazuri de sindrom nefrotic cortico-rezistent cu debut în adolescenţă, cu manifestări clinice şi histopatologice similare (scleroză glomerulară focal-segmentală), dar cu mecanisme diferite de producere a proteinuriei: o formă dobândită şi una genetică, având astfel prognostic şi evoluţie diferită. Primul caz, o adolescentă de 16 ani prezintă debutul bolii brusc cu edeme masive, generalizate, cu răspuns favorabil la tratamentul cu ciclosporină. A doua pacientă, o adolescentă de 13 ani, a prezentat sindrom nefrotic corticorezistent cu debut insidios cu edeme uşoare. În acest caz testarea genetică a evidenţiat o mutaţie în gena WT1, iar evoluţia a fost rapidă (în 8 luni) către insuficienţă renală terminală, dar cu evoluţie şi prognostic favorabil după transplant renal. Concluzii: Formele genetice ale sindromului nefrotic nu răspund la tratamentul imunosupresiv şi pot evolua către boală renală terminală, dar după transplant recăderea este puţin probabilă, în contrast cu formele imune. Diagnosticul genetic precoce în sindromul nefrotic cortico-rezistent este important pentru managementul optim al pacienţilor, precizarea prognosticului, respectiv pentru consilierea genetică a familiei