Eleftheria Vardaki

Actin Cytoskeleton: A Signaling Sensor in Cell Volume Regulation

The actin microfilaments are well known dynamic structures that support and organize the cell membrane and functions associated with the membrane such as ion channels and transporters. In addition, many aspects of cellular physiology seem to be actively modulated by changes in actin cytoskeleton dynamics, which involve reorganization and restructuring of the filaments. For both of these reasons, the actin cytoskeleton has attracted special attention since the early days of cell volume regulation research. Mechanisms controlling the actin equilibrium in response to external stimuli were studied and the signaling cascades leading to the regulation of actin cytoskeleton dynamics have been partially elucidated. They include: a) activation of specific actin binding proteins that regulate actin polymerization dynamics, b) activation of protein kinases or phosphatases regulating phosphorylation of specific cytoskeletal proteins and c) activation of signal transduction pathways leading from membrane receptor activation to actin reorganization involving small GTPases of the Rho and Rac families. These intracellular signal transducers are activated by extracellular stimuli that include hormones, growth factors, cytokines, or ions, many of them in turn are partially known to participate in cell volume regulation. These findings provide strong evidence that the actin cytoskeleton is involved in cell volume regulation by sensing and mediating extracellular signals.

The PI3K/Akt/mTOR pathway is activated in murine lupus nephritis and downregulated by rapamycin

BACKGROUND The mammalian target of rapamycin (mTOR) inhibitor, rapamycin, has been shown to inhibit the progression of murine lupus nephritis by virtue of its potent immunosuppressive properties. The phosphoinositol-3-kinase (PI3K)/Akt pathway is a major upstream activator of mTOR and has been implicated in the propagation of cancer and autoimmunity. However, the activation status of the PI3K/Akt/mTOR pathway in lupus nephritis has not been studied so far. METHODS In NZBW/F1 female mice, we examined the glomerular expression of Akt and mTOR by immunofluorescence and western blot. We also searched for specific phosphorylations of these kinases known to ensue during activation of the PI3K/Akt/mTOR pathway. In parallel, we examined the therapeutic role of rapamycin either before or after the development of overt lupus nephritis. RESULTS We found that in untreated mice, as opposed to healthy controls, Akt and mTOR were over-expressed and phosphorylated at key activating residues. Rapamycin prolonged survival, maintained normal renal function, normalized proteinuria, restored nephrin and podocin levels, reduced anti-dsDNA titres, ameliorated histological lesions, and reduced Akt and mTOR glomerular expression activation. CONCLUSIONS These results suggest that: (i) the PI3K/Akt/mTOR pathway is upregulated in murine lupus nephritis, thus justifying treatment with rapamycin; (ii) rapamycin not only blocks mTOR but also negatively regulates the PI3K/Akt/mTOR pathway; and (iii) rapamycin is an effective treatment of murine lupus nephritis. Examination of the PI3K/Akt/mTOR pathway may offer new insights into the pathogenesis of lupus nephritis in humans and may lead to more individualized and less toxic treatment.

Acute Renal Failure, Translocational Hyponatremia and Hyperkalemia following Intravenous Immunoglobulin Therapy

Background/Aims: Intravenous immunoglobulin (IVIG) therapy has been associated with renal adverse effects and electrolyte disturbances. Methods: We retrospectively evaluated a cohort of 66 unselected patients with idiopathic thrombocytopenic purpura, who received 140 courses of IVIG therapy. Acute renal failure (ARF), hyponatremia and hyperkalemia, as potential complications of IVIG therapy, were assessed from 100 IVIG courses with sufficient data for analysis. Results: Thirteen out of 100 (13%) IVIG courses in 10 (15%) patients were complicated with ARF. Risk factors included advanced age, pre-existing renal impairment, use of diuretics and the presence of diabetes mellitus. All patients recovered renal function 1–2 weeks after IVIG infusion. Serum sodium (sNa) fell by 5.7 and 2.7 mmol/l (p < 0.01) in patients with and without ARF, respectively. Correspondingly, serum potassium increased by 0.7 and 0.23 mmol/l (p < 0.01). There was a strong inverse correlation (r = –0.308; p < 0.01) between changes in sNa and creatinine. Changes in serum potassium could be independently predicted by changes in both sNa and creatinine (R2 = 0.11; p < 0.01). These data suggested that both hyponatremia and hyperkalemia were (a) due to the translocational effect of the osmotic load of sucrose, and (b) largely depended on the extent of IVIG nephropathy. Conclusion: In our series, ARF attributable to IVIG therapy, although not rare, was usually mild and fully reversible. High-risk patients were more susceptible to IVIG-related renal complications. Translocational hyponatremia and hyperkalemia following IVIG therapy, although unimportant in patients with normal renal function, may be of clinical significance in patients with severely compromised renal function, resulting in impaired sucrose excretion.

Can a left internal jugular catheter be used in the hemodialysis of a patient with persistent left superior vena cava

A patient with a persistent left superior vena cava (PLSVC) was incidentally diagnosed after positioning of a dual lumen catheter for hemodialysis into the left internal jugular vein. Although PLSVC is a relatively rare condition, it is the most common congenital anomaly of thoracic venous circulation. It represents the persistence of the left horn of the embryonic sinus venosus, which normally involutes during embryogenesis to become the coronary sinus. The existence of a PLSVC can cause a significant diagnostic dilemma during catheterization of the left internal jugular vein, pertaining to the positioning of the catheter. It may also be associated with significant clinical implications such as systemic embolization, provocation of arrhythmia, and thrombosis of the vessel. The safety of such catheterization has not been adequately evaluated due to the rarity of this condition. We believe that a diagnostic workup including blood gas analysis, echocardiography, and computed tomography is necessary to confirm a right atrial drainage and a patent innominate vein as prerequisites to maintain the catheter in position.

Long-term complication rates and survival of peritoneal dialysis catheters: the role of percutaneous versus surgical placement.

Considerable controversy currently exists in the literature concerning the mode of catheter placement and its impact on the technical success of peritoneal dialysis (PD). We decided to compare the impact of the surgical versus the percutaneous insertion technique on peritoneal dialysis catheter (PDCs) complications and survival. Our study population comprised 152 patients in whom 170 PDCs were inserted between January 1990 and December 2007 at the main PD unit on the island of Crete. Eighty four catheters were surgically placed (S group) and 86 were placed percutaneously by nephrologists (N group). The total experience accumulated was 4997 patient‐months. The overall complications did not differ between the two groups. Only early leakage was more frequent in N group than S group (10.3 versus 1.9 episodes per 1000 patient‐months; p < 0.001). However, it was easily treated and did not constitute a cause of early catheter removal. Catheter survival was 91.1%, 80.7%, and 73.2%, in the S group versus 89.5%, 83.7%, and 83.7% for the N group at 1, 2, and 3 years, respectively (p = 0.2). Catheter survival has significantly increased over the last decade. Factors positively affecting PDC survival appeared to be the use of mupirocin for exit site care and the utilization of the coiled type of catheter, practices implemented mainly after 1999. Peritonitis‐free survival and patient survival were not associated with the mode of placement, while in Cox regression analysis, were longer in patients treated with automated PD. The placement mode did not affect PD outcomes. Percutaneous implantation proved a safe, simple, low cost, immediately available method for PDC placement and helped to expand our PD program.

Percutaneous ethanol injection therapy: a surgery-sparing treatment for primary hyperparathyroidism.

Objective  To describe our 3‐year experience in the long‐term efficacy and safety of percutaneous ethanol injection therapy (PEIT), as an alternative to surgery for the management of patients with primary hyperparathyroidism (p‐HPT).

Losartan Affects Glomerular AKT and mTOR Phosphorylation in an Experimental Model of Type 1 Diabetic Nephropathy

The AKT-mTOR pathway is activated in diabetic nephropathy. Renin-angiotensin system modulators exert beneficial effects on the diabetic kidney. We explored the action of losartan on AKT-mTOR phosphorylation in glomeruli and podocytes. Diabetes mellitus was induced to Sprague-Dawley rats by streptozotocin. Five months later, the rats were commenced on losartan and euthanized 2 months later. Kidneys were processed for immunofluorescence studies. Glomeruli were isolated for Western blot analysis. Diabetes increased activated forms of AKT and mTOR both in glomeruli and podocytes. In diabetic rats, losartan decreased phosphorylated/activated forms of AKT (Thr308) and mTOR (Ser2448) in glomeruli but decreased only activated mTOR in podocytes. However, in both glomeruli and podocytes of healthy animals, an inverse pattern was evident. In conclusion, a new body of evidence indicates the differential activation of AKT-mTOR in glomeruli and podocytes of healthy and diabetic animals in response to losartan.

Rapamycin induced ultrastructural and molecular alterations in glomerular podocytes in healthy mice

BACKGROUND In the normal kidney, rapamycin is considered to be non-nephrotoxic. In the present study, we investigated whether rapamycin is indeed non-nephrotoxic by examining the ultrastructural and molecular alterations of podocytes in healthy mice. METHODS Balb/c mice were given three different intraperitoneal doses of rapamycin for 1 week (dose model)-low-dose group: 1 mg/kg/day, intermediate-dose (ID) group: 1.5 mg/kg/day and high-dose (HD) group: 3 mg/kg/day; four mice in each group. An ID of rapamycin was also given for three different periods (time model): 1, 4 and 8 weeks; four mice were in each group. Mice treated with dimethyl sulphoxide served as controls. Body weight was measured weekly. Renal function was assessed by serum creatinine at the time of sacrifice. For estimation of albuminuria, 24-h urine collections were performed before treatment and weekly thereafter. Glomerular content of nephrin, podocin, Akt and Ser473-phospho-Akt was estimated by western blot and immunofluorescence. Nephrin and podocin messenger RNA (mRNA) were measured by real-time polymerase chain reaction. Mean podocyte foot process width (FPW) was measured by electron microscopy. RESULTS Urine albumin levels increased in the HD and 4-week groups. Renal function was modestly deteriorated in the HD group. The mean FPW increased in a dose-dependant manner at Week 1, further deteriorated at Week 4 and finally improved at Week 8. Nephrin and podocin mRNA levels showed a significant decrease at Week 1 and were restored at Week 4 and 8. Nephrin and podocin protein levels were reduced at Week 4 and recovered at Week 8. Ser473-phospho-Akt significantly increased in all rapamycin-treated groups. CONCLUSIONS Rapamycin induced significant ultrastructural and molecular alterations in podocytes in association with albuminuria. These alterations happened early during treatment and they tended to improve over an 8-week treatment period.

The use of pulse wave velocity in predicting pre-eclampsia in high-risk women

In this study, we evaluated the diagnostic utility of pulse wave velocity (PWV) alone or in combination with other diagnostic markers in predicting pre-eclampsia (PE) in high-risk women. Pregnant women at high risk for PE were recruited between 22 and 26 weeks of gestation and were assessed for (a) PWV, (b) serum levels of the placental soluble fms-like tyrosine kinase 1 (sFlt-1) protein and uric acid and (c) 24-h urinary protein and calcium excretion. Sensitivities and specificities were derived from receiver operating characteristic curves. Of 118 women recruited, 11 and 10 women developed early-onset PE (<34 weeks) and late-onset PE (≥34 weeks), respectively. Of the five diagnostic markers tested, PWV showed the highest detection rate for all cases (21) of PE (81%) and for early-onset PE (82%) at a fixed 10% false-positive rate (FPR), and when combined with sFlt-1, these figures increased to 90% and 92%, respectively. Despite the reduced ability of PWV to predict late-onset PE (detection rate 20%), the combination of PWV with sFlt-1 achieved a detection rate of 50% at a fixed 10% FPR. A suggested cutoff value of 9 m/s for PWV resulted in optimal sensitivity (91%) and specificity (86%) for predicting early-onset PE. This study is the first to show that PWV may be a potentially promising predictor of early-onset PE in women at high risk for PE. The combination of PWV with sFlt-1 may further improve the screening efficacy for predicting PE.

Rapamycin Ameliorates Proteinuria and Restores Nephrin and Podocin Expression in Experimental Membranous Nephropathy

Objective. Recent studies have shown a beneficial effect of rapamycin in passive and active Heymann Nephritis (HN). However, the mechanisms underlying this beneficial effect have not been elucidated. Methods. Passive Heymann Nephritis (PHN) was induced by a single intravenous infusion of anti-Fx1 in 12 Sprague-Dawley male rats. One week later, six of these rats were commenced on daily treatment with subcutaneous rapamycin 0.5 mgr/kg (PHN-Rapa). The remaining six rats were used as the proteinuric control group (PHN) while six more rats without PHN were given the rapamycin solvent and served as the healthy control group (HC). All rats were sacrificed at the end of the 7th week. Results. Rapamycin significantly reduced proteinuria during the autologous phase of PHN. Histological lesions were markedly improved by rapamycin. Immunofluorescence revealed attenuated deposits of autologous alloantibodies in treated rats. Untreated rats showed decreased glomerular content of both nephrin and podocin whereas rapamycin restored their expression. Conclusions. Rapamycin monotherapy significantly improves proteinuria and histological lesions in experimental membranous nephropathy. This beneficial effect may be mediated by inhibition of the alloimmune response during the autologous phase of PHN and by restoration of the normal expression of the podocyte proteins nephrin and podocin.