p35, the non-cyclin activator of Cdk5, protects podocytes against apoptosis in vitro and in vivo

Cyclin-dependent kinase-5 is widely expressed and predominantly regulated by the non-cyclin activator p35. Since we recently showed that expression of p35 in the kidney is restricted to podocytes, we examined here its function in mice in which p35 was genetically deleted. The mice did not exhibit kidney abnormalities during glomerular development or during adult life. Conditionally immortalized cultured podocytes, derived from these null mice, did not have any change in their morphology, differentiation, or proliferation. However, when these cultured podocytes were exposed to UV-C irradiation, serum depletion, puromycin aminonucleoside, or transforming growth factor-β-1, they showed increased apoptosis compared to those from wild-type mice. Levels of Bcl-2 were decreased in these null podocytes but increased after transduction with human p35. Restoration of p35 or the ectopic expression of Bcl-2 reduced the susceptibility of p35-null podocytes to apoptosis. Experimental glomerulonephritis, characterized by podocyte apoptosis and subsequent crescent formation, was utilized to test these findings in vivo. Podocyte apoptosis was significantly increased in diseased p35-null compared with wild-type mice, accompanied by increased glomerulosclerosis and decreased renal function. Our study shows that p35 does not affect glomerulogenesis but controls podocyte survival following injury, in part, by regulating Bcl-2 expression

Low-Molecular Weight Heparin Increases Circulating sFlt-1 Levels and Enhances Urinary Elimination

Rationale: Preeclampsia is a devastating medical complication of pregnancy which leads to maternal and fetal morbidity and mortality. While the etiology of preeclampsia is unclear, human and animal studies suggest that excessive circulating levels of soluble fms-like tyrosine-kinase-1 (sFlt-1), an alternatively spliced variant of VEGF-receptor1, contribute to the signs and symptoms of preeclampsia. Since sFlt-1 binds to heparin and heparan sulfate proteoglycans, we hypothesized that the anticoagulant heparin, which is often used in pregnancy, may interfere with the levels, distribution and elimination of sFlt-1 in vivo. Objective: We systematically determined serum and urine levels of angiogenic factors in preeclamptic women before and after administration of low molecular weight heparin and further characterized the interaction with heparin in biochemical studies. Methods and Results: Serum and urine samples were used to measure sFlt-1 levels before and after heparin administration. Serum levels of sFlt-1 increased by 25% after heparin administration in pregnant women. The magnitude of the increase in circulating sFlt-1 correlated with initial sFlt-1 serum levels. Urinary sFlt-1 levels were also elevated following heparin administration and levels of elimination were dependent on the underlying integrity of the glomerular filtration barrier. Biochemical binding studies employing cation exchange chromatography revealed that heparin bound sFlt-1 had decreased affinity to negatively charged surfaces when compared to sFlt-1 alone. Conclusion: Low molecular weight heparin administration increased circulating sFlt1 levels and enhanced renal elimination. We provide evidence that both effects may be due to heparin binding to sFlt1 and masking the positive charges on sFlt1 protein

Low-Molecular Weight Heparin Increases Circulating sFlt-1 Levels and Enhances Urinary Elimination

Rationale: Preeclampsia is a devastating medical complication of pregnancy which leads to maternal and fetal morbidity and mortality. While the etiology of preeclampsia is unclear, human and animal studies suggest that excessive circulating levels of soluble fms-like tyrosine-kinase-1 (sFlt-1), an alternatively spliced variant of VEGF-receptor1, contribute to the signs and symptoms of preeclampsia. Since sFlt-1 binds to heparin and heparan sulfate proteoglycans, we hypothesized that the anticoagulant heparin, which is often used in pregnancy, may interfere with the levels, distribution and elimination of sFlt-1 in vivo. Objective: We systematically determined serum and urine levels of angiogenic factors in preeclamptic women before and after administration of low molecular weight heparin and further characterized the interaction with heparin in biochemical studies. Methods and Results: Serum and urine samples were used to measure sFlt-1 levels before and after heparin administration. Serum levels of sFlt-1 increased by 25% after heparin administration in pregnant women. The magnitude of the increase in circulating sFlt-1 correlated with initial sFlt-1 serum levels. Urinary sFlt-1 levels were also elevated following heparin administration and levels of elimination were dependent on the underlying integrity of the glomerular filtration barrier. Biochemical binding studies employing cation exchange chromatography revealed that heparin bound sFlt-1 had decreased affinity to negatively charged surfaces when compared to sFlt-1 alone. Conclusion: Low molecular weight heparin administration increased circulating sFlt1 levels and enhanced renal elimination. We provide evidence that both effects may be due to heparin binding to sFlt1 and masking the positive charges on sFlt1 protein

Nephrotic syndrome: Current understanding and future therapies

Advances in basic and clinical research have improved our understanding of the pathomechanisms underlying nephrotic syndrome caused by minimal change disease (MCD) and focal and segmental glomerulosclerosis (FSGS). These advances are reflected in the new 2021 KDIGO-Guidelines, which emphasize the clear distinction between primary, secondary and genetic causes. Proper classification is critical, as it directly affects the therapy of choice. While glucocorticoids still play a central in inducing remission in primary forms, calcineurin inhibitors, mycophenolate mofetil, cyclophosphamide and rituximab (off label) are viable adjuncts/alternatives to reduce or replace glucocorticoids in case of side effects or contraindications. Since SGLT-2-inhibitors have shown renoprotective effects in non-diabetic patients and may help to reduce proteinuria, they should be considered in all (adult) patients with chronic kidney disease, including MCD and FSGS patients. In the near future, Sparsentan, an endothelin type A and angiotensin receptor blocker may be added to the growing arsenal of proteinuria-reducing agents, with a phase 3 trail expected to be completed in late 2022. Finally, we recommend the inclusion of all MCD/FSGS patients in clinical registries (e. g. FOrMe Registry in Germany) to ensure adequate therapy and genetic testing if indicated. In addition, national registries are an invaluable source of clinical data that helps to refine our therapies towards individualized medicine

Acquired thrombotic-thrombocytopenic purpura patient management with the advent of novel therapeutic agents

History A 42-year-old female patient presented with pyelonephritis. Two days later she complained of hematomas and petechia of the extremities. Diagnosis/Clinical findings Acquired thrombotic thrombocytopenic purpura was diagnosed. Laboratory result showed a thrombotic microangiopathy and thrombocytopenia of 8 x 10E9/l. ADAMTS13-activity was reported to be reduced and inhibitory antibodies to be present. Therapy and Course The patient was placed on a therapy with plasma exchange, high-dose steroids, and caplacizumab based on a positive PLASMIC score. Once the diagnosis was confirmed by diminished ADAMTS13-activity and the presence of autoantibodies, rituximab was added. The patient responded well but showed persistently elevated levels of ADAMTS13-autoantibodies, which lead to an extension of Caplacizumab treatment to 58 days. Discussion Caplacizumab represents a novel effective treatment option for patients with acquired thrombocytopenic purpura. Time to treatment response as well as the risk of relapse were shown to be significantly reduced. However, persistent autoimmune activity can be demonstrated in a significant portion of the patients after the end of treatment putting them at risk for relapses. Thus, careful and frequent surveillance is required

Metabolism of human insulin after subcutaneous administration: A possible means to uncover insulin misuse

The misuse of insulin for performance enhancement in sport or as toxic agent has frequently been reported in the past. In contrast to synthetic insulin analogues, the administration of recombinant human insulin is hardly recognized by mass spectrometry. The present study was designed to uncover the misuse of recombinant human insulin for doping control purposes as well as for forensic applications. It is hypothesized that an altered metabolite profile of circulating insulin prevails after subcutaneous administration due to exposure of insulin to epidermal proteases. In vitro experiments with skin tissue lysates (S9 fraction and microsomes), different biological fluids (urine, serum, plasma) and recombinant human insulin were performed and the deriving metabolites were characterized by liquid chromatography coupled to high resolution mass spectrometry (HRMS). Afterwards, authentic blood samples of patients suffering from diabetes mellitus and a control group of healthy humans were analysed. Therefore, a method using protein precipitation, ultrafiltration and antibody-coated magnetic beads for purification with subsequent separation by nano-scale liquid chromatography coupled a Q Exactive mass spectrometer was applied. Several metabolites of insulin with C-terminally truncated sequences of the B-chain (and A-chain in minor extent) were identified within this study. Here, the DesB30 human insulin represents the major metabolite in all experiments. This metabolite is frequently found in urine samples due to degradation processes and, thus, disqualifies this matrix for the intended purposes. In contrast, blood samples do commonly not contain DesB30 insulin, which was corroborated by data obtained from the control group. In post-administration blood samples, minute but distinct amounts (approx. 50 pg mL(-1)) of DesB30 insulin were found and suggest the use of this analyte as potential marker for subcutaneous human insulin administration, supporting the attempts to uncover illicit recombinant human insulin administrations. (C) 2015 Elsevier B.V. All rights reserved

Simultaneous determination of insulin, DesB30 insulin, proinsulin, and C-peptide in human plasma samples by liquid chromatography coupled to high resolution mass spectrometry

The endocrine pancreatic processes comprising the main actions of insulin, proinsulin, and C-peptide, represent a well-investigated system in the human organism because of the widespread epidemic of diabetes mellitus. Besides their medical relevance, insulin and its related compounds have further been of particular interest also to forensic science and doping controls, and in all disciplines, a specific and sensitive determination of the target analytes is critical for accurate result interpretation. In the present study, a method was developed allowing for the simultaneous determination of human insulin (and its synthetic analogues), the degradation product DesB30 human insulin, proinsulin, and C-peptide in plasma samples (100 A mu L) by liquid chromatography coupled to high resolution mass spectrometry. Immunoaffinity extraction employing magnetic nanoparticles and two monoclonal antibodies for insulin and C-peptide were used in combination with two internal standards. The assay was validated for quantitative result evaluation considering the parameters specificity, linearity (0-10 ng/mL), limit of detection (similar to 0.05 ng/mL), precision at high and low levels (6-25%), accuracy at high and low levels (85-127%), recovery (33-44%), ion suppression, and stability. Furthermore, the method was applied to samples from healthy athletes, patients with diabetes mellitus (type II) with and without treatment with insulin, and patients being treated for diabetes mellitus (type I). The results enable a thorough interpretation of the data with respect to endocrine, forensic and doping control samples

The NF-kappa B essential modulator (NEMO) controls podocyte cytoskeletal dynamics independently of NF-kappa B

Maintenance of the glomerular filtration barrier with its fenestrated endothelium, the glomerular basement membrane, and the podocytes as the outer layer, is a major prerequisite for proper renal function. Tight regulation of the balance between plasticity and rigidity of the podocytes' architecture is required to prevent the onset of glomerular disease, mainly proteinuria. The underlying cellular signaling pathways that regulate the organization of the podocytes' cytoskeleton are still a matter of controversial debate. In this study, we investigated the role of the NF-kappa B signaling pathway in podocyte cytoskeletal dynamics. As previously published, genetic inhibition of the NF-kappa B essential modulator (NEMO) in podocytes does not affect glomerular function under physiological, nonstressed conditions nor does it alter the initial podocyte response in an experimental glomerulonephritis (NTN) model (Brahler S, Ising C, Hagmann H, Rasmus M, Hoehne M, Kurschat C, Kisner T, Goebel H, Shankland SJ, Addicks K, Thaiss F, Schermer B, Pasparakis M, Benzing T, Brinkkoetter PT. Am J Physiol Renal Physiol 303: F1473-F1475, 2012). Quite the contrary, podocyte-specific NEMO null mice recovered significantly faster and did not develop glomerulosclerosis and end- stage renal failure over time. Here, we show that cytoskeletal rearrangements and increased podocyte motility following stimulation with IL-1, TNF-alpha, or LPS depend on NEMO. NEMO also regulates the phosphorylation of the MAP kinase ERK1/2 and suppresses the activation of RhoA following stimulation with IL-1. The migratory response and altered ERK1/2 phosphorylation is independent of NF-kappa B signaling as demonstrated by expression of a mutant I kappa B resistant to phosphorylation and degradation. In conclusion, signaling through NEMO might not only be involved in the production of NF-kappa B proinflammatory chemokines but also regulates podocyte dynamics independently of NF-kappa B, most likely through small GTPases and MAP kinases