Expression, immunolocalization and processing of fertilins ADAM-1 and ADAM-2 in the boar (sus domesticus) spermatozoa during epididymal maturation

Fertilin alpha (ADAM-1) and beta (ADAM-2) are integral membrane proteins of the ADAM family that form a fertilin complex involved in key steps of the sperm-oocyte membrane interaction. In the present work, we analyzed the presence of ADAM-1 and ADAM-2 mRNAs, the spermatozoa proteins' processing and their sub-cellular localization in epididymal samples from adult boars. ADAM-1 and ADAM-2 mRNAs were highly produced in the testis, but also in the vas efferens and the epididymis. On immunoblots of sperm extracts, ADAM-1 subunit appeared as a main reactive band of ~50-55 kDa corresponding to occurrence of different isoforms throughout the epididymal duct, especially in the corpus region where isoforms ranged from acidic to basic pI. In contrast, ADAM-2 was detected as several bands of ~90 kDa, ~75 kDa, ~50-55 kDa and ~40 kDa. The intensity of high molecular mass bands decreased progressively in the distal corpus where lower bands were also transiently observed, and only the ~40 kDa was observed in the cauda. The presence of bands of different molecular weights likely results from a proteolytic processing occurring mainly in the testis for ADAM-1, and also throughout the caput epididymis for ADAM-2. Immunolocalization showed that fertilin migrates from the acrosomal region to the acrosomal ridge during the sperm transit from the distal corpus to the proximal cauda. This migration is accompanied by an important change in the extractability of a part of ADAM-1 from the sperm membrane. This suggests that the fertilin surface migration may be triggered by the biochemical changes induced by the epididymal post-translational processing of both ADAM1 and ADAM-2. Different patterns of fertilin immunolocalization then define several populations of spermatozoa in the cauda epididymis. Characterization of such fertilin complex maturation patterns is an important step to develop fertility markers based on epididymal maturation of surface membrane proteins in domestic mammals

Biotecnologia reproductiva en porcí: estat actual i reptes de futur

La biotecnologia reproductiva en porcí inclou les diverses tècniques d'anàlisi de la qualitat seminal i les tècniques de reproducció assistida. Els objectius fonamentals són garantir la seguretat biològica, permetre'n la traçabilitat i incrementar (o estabilitzar) el rendiment reproductiu. Entre les tècniques d'anàlisi de la qualitat seminal destaquem les de determinació de qualitat espermàtica (concentració, motilitat, viabilitat, integritat de membranes i del DNA), les de control de l'estat sanitari (PCR-RT per a detecció de virus i bacteris) i les de determinació del poder fecundant i de la resistència osmòtica. Entre les tècniques de reproducció assistida es practiquen la inseminació artificial (cervical, postcervical i intrauterina), la fecundació in vitro, la injecció intracitoplasmàtica d'espermatozoides, la vitrificació embrionària, la transferència embrionària no quirúrgica, la criopreservació espermàtica, el sexatge d'espermatozoides i d'embrions, el clonatge reproductiu i terapèutic i la transgènesi.Reproductive biotechnology in porcine includes several techniques of analysis of the seminal quality and techniques of assisted reproduction. The main goals are guaranteeing the biological security, allowing the traceability and increasing (or stabilizing) the reproductive yield. Among the techniques of analysis of the seminal quality we highlight those of sperm quality (concentration, motility, viability, integrity of membranes and DNA), those of sanitary control (PCR-RT for the detection of virus and bacteria) and those of determination of fertilizing ability and osmotic resistance. Among the assisted reproduction techniques, there is artificial insemination (cervical, postcervical and intrauterine), in vitro fertilization, intracytoplasmic injection of spermatozoa, embryonic vitrification, non surgical embryonic transfer, sperm cryopreservation, spermatozoa and embryos sexing, reproductive and therapeutic cloning, and transgenity

Discerning the Ambiguous Role of Missense TTN Variants in Inherited Arrhythmogenic Syndromes

The titin gene (TTN) is associated with several diseases, including inherited arrhythmias. Most of these diagnoses are attributed to rare TTN variants encoding truncated forms, but missense variants represent a diagnostic challenge for clinical genetics. The proper interpretation of genetic data is critical for translation into the clinical setting. Notably, many TTN variants were classified before 2015, when the American College of Medical Genetics and Genomics (ACMG) published recommendations to accurately classify genetic variants. Our aim was to perform an exhaustive reanalysis of rare missense TTN variants that were classified before 2015, and that have ambiguous roles in inherited arrhythmogenic syndromes. Rare missense TTN variants classified before 2015 were updated following the ACMG recommendations and according to all the currently available data. Our cohort included 193 individuals definitively diagnosed with an inherited arrhythmogenic syndrome before 2015. Our analysis resulted in the reclassification of 36.8% of the missense variants from unknown to benign/likely benign. Of all the remaining variants, currently classified as of unknown significance, 38.3% showed a potential, but not confirmed, deleterious role. Most of these rare missense TTN variants with a suspected deleterious role were identified in patients diagnosed with hypertrophic cardiomyopathy. More than 35% of the rare missense TTN variants previously classified as ambiguous were reclassified as not deleterious, mainly because of improved population frequencies. Despite being inconclusive, almost 40% of the variants showed a potentially deleterious role in inherited arrhythmogenic syndromes. Our results highlight the importance of the periodical reclassification of rare missense TTN variants to improve genetic diagnoses and help increase the accuracy of personalized medicine

Malignant Arrhythmogenic Role Associated with RBM20: A Comprehensive Interpretation Focused on a Personalized Approach

The RBM20 gene encodes the muscle-specific splicing factor RNA-binding motif 20, a regulator of heart-specific alternative splicing. Nearly 40 potentially deleterious variants in RBM20 have been reported in the last ten years, being found to be associated with highly arrhythmogenic events in familial dilated cardiomyopathy. Frequently, malignant arrhythmias can be a primary manifestation of disease. The early recognition of arrhythmic genotypes is crucial in avoiding lethal episodes, as it may have an impact on the adoption of personalized preventive measures. Our study performs a comprehensive update of data concerning rare variants in RBM20 that are associated with malignant arrhythmogenic phenotypes with a focus on personalized medicine.This work was supported by Obra Social "La Caixa Foundation" (LCF/PR/GN16/50290001 and LCF/PR/GN19/50320002), Fondo Investigacion Sanitaria (FIS PI16/01203 and FIS, PI17/01690) from Instituto Salud Carlos III (ISCIII), and "Fundacio Privada Daniel Bravo Andreu". CIBERCV is an initiative of the ISCIII, Spanish Ministry of Economy and Competitiveness

Rare Variants Associated with Arrhythmogenic Cardiomyopathy: Reclassification Five Years Later.

Genetic interpretation of rare variants associated with arrhythmogenic cardiomyopathy (ACM) is essential due to their diagnostic implications. New data may relabel previous variant classifications, but how often reanalysis is necessary remains undefined. Five years ago, 39 rare ACM-related variants were identified in patients with features of cardiomyopathy. These variants were classified following the American College of Medical Genetics and Genomics' guidelines. In the present study, we reevaluated these rare variants including novel available data. All cases carried one rare variant classified as being of ambiguous significance (82.05%) or likely pathogenic (17.95%) in 2016. In our comprehensive reanalysis, the classification of 30.77% of these variants changed, mainly due to updated global frequencies. As in 2016, nowadays most variants were classified as having an uncertain role (64.1%), but the proportion of variants with an uncertain role was significantly decreased (17.95%). The percentage of rare variants classified as potentially deleterious increased from 17.95% to 23.07%. Moreover, 83.33% of reclassified variants gained certainty. We propose that periodic genetic reanalysis of all rare variants associated with arrhythmogenic cardiomyopathy should be undertaken at least once every five years. Defining the roles of rare variants may help clinicians obtain a definite diagnosis

Discerning the Ambiguous Role of Missense TTN Variants in Inherited Arrhythmogenic Syndromes

The titin gene (TTN) is associated with several diseases, including inherited arrhythmias. Most of these diagnoses are attributed to rare TTN variants encoding truncated forms, but missense variants represent a diagnostic challenge for clinical genetics. The proper interpretation of genetic data is critical for translation into the clinical setting. Notably, many TTN variants were classified before 2015, when the American College of Medical Genetics and Genomics (ACMG) published recommendations to accurately classify genetic variants. Our aim was to perform an exhaustive reanalysis of rare missense TTN variants that were classified before 2015, and that have ambiguous roles in inherited arrhythmogenic syndromes. Rare missense TTN variants classified before 2015 were updated following the ACMG recommendations and according to all the currently available data. Our cohort included 193 individuals definitively diagnosed with an inherited arrhythmogenic syndrome before 2015. Our analysis resulted in the reclassification of 36.8% of the missense variants from unknown to benign/likely benign. Of all the remaining variants, currently classified as of unknown significance, 38.3% showed a potential, but not confirmed, deleterious role. Most of these rare missense TTN variants with a suspected deleterious role were identified in patients diagnosed with hypertrophic cardiomyopathy. More than 35% of the rare missense TTN variants previously classified as ambiguous were reclassified as not deleterious, mainly because of improved population frequencies. Despite being inconclusive, almost 40% of the variants showed a potentially deleterious role in inherited arrhythmogenic syndromes. Our results highlight the importance of the periodical reclassification of rare missense TTN variants to improve genetic diagnoses and help increase the accuracy of personalized medicine

Cyclophilin B Interacts with Sodium-Potassium ATPase and Is Required for Pump Activity in Proximal Tubule Cells of the Kidney

Cyclophilins (Cyps), the intracellular receptors for Cyclosporine A (CsA), are responsible for peptidyl-prolyl cis-trans isomerisation and for chaperoning several membrane proteins. Those functions are inhibited upon CsA binding. Albeit its great benefits as immunosuppressant, the use of CsA has been limited by undesirable nephrotoxic effects, including sodium retention, hypertension, hyperkalemia, interstial fibrosis and progressive renal failure in transplant recipients. In this report, we focused on the identification of novel CypB-interacting proteins to understand the role of CypB in kidney function and, in turn, to gain further insight into the molecular mechanisms of CsA-induced toxicity. By means of yeast two-hybrid screens with human kidney cDNA, we discovered a novel interaction between CypB and the membrane Na/K-ATPase β1 subunit protein (Na/K-β1) that was confirmed by pull-down, co-immunoprecipitation and confocal microscopy, in proximal tubule-derived HK-2 cells. The Na/K-ATPase pump, a key plasma membrane transporter, is responsible for maintenance of electrical Na+ and K+ gradients across the membrane. We showed that CypB silencing produced similar effects on Na/K-ATPase activity than CsA treatment in HK-2 cells. It was also observed an enrichment of both alpha and beta subunits in the ER, what suggested a possible failure on the maturation and routing of the pump from this compartment towards the plasma membrane. These data indicate that CypB through its interaction with Na/K-β1 might regulate maturation and trafficking of the pump through the secretory pathway, offering new insights into the relationship between cyclophilins and the nephrotoxic effects of CsA

Personalized Interpretation and Clinical Translation of Genetic Variants Associated With Cardiomyopathies

Cardiomyopathies are a heterogeneous group of inherited cardiac diseases characterized by progressive myocardium abnormalities associated with mechanical and/or electrical dysfunction. Massive genetic sequencing technologies allow a comprehensive genetic analysis to unravel the cause of disease. However, most identified genetic variants remain of unknown clinical significance due to incomplete penetrance and variable expressivity. Therefore, genetic interpretation of variants and translation into clinical practice remain a current challenge. We performed retrospective comprehensive clinical assessment and genetic analysis in six families, four diagnosed with arrhythmogenic cardiomyopathy, and two diagnosed with hypertrophic cardiomyopathy (HCM). Genetic testing identified three rare variants (two non-sense and one small indel inducing a frameshift), each present in two families. Although each variant is currently classified as pathogenic and the cause of the diagnosed cardiomyopathy, the onset and/or clinical course differed in each patient. New genetic technology allows comprehensive yet cost-effective genetic analysis, although genetic interpretation, and clinical translation of identified variants should be carefully done in each family in a personalized manner

Caracterització dels sistemes renals de ratolí i humà (PCT3 i HK-2). Mecanismes moleculars implicats en la nefrotoxicitat produïda per la CsA en el túbul proximal renal.

[cat] La CsA és un potent immunosupressor àmpliament utilitzat en el trasplantament d'òrgans sòlids que com a principal efecte secundari mostra una elevada toxicitat renal que pot conduir a la pèrdua de la funció renal (Borel J.F. et al., 1976; Bennet W.M. et al., 1983). Els mecanismes moleculars pels quals la CsA exerceix els seu efecte immunosupressor han estat ben estudiats (Schreiber S.L., 1991; Liu J. et al., 1992), no obstant poc es coneix dels mecanismes d'acció a nivell molecular implicats en el dany renal. El tractament de cèl·lules PCT3 i HK-2 amb dosis creixents de CsA (desde 0 fins a 20 µM) demostra que la concentració de 10 µM és una dosi crítica a partir de la qual es posen de manifest varis esdeveniments cel·lulars tals com la disminució de la viabilitat cel·lular de manera dosi i temps dependent, la mort cel·lular per apoptosi, la disminució de la respiració mitocondrial i del percentatge de cèl·lules en fase S. Mitjançant un estudi proteòmic diferencial entre cèl·lules control i cèl·lules tractades amb la dosi 10 µM de CsA s'identifiquen putatius marcadors que ens permeten distingir la toxicitat renal creada per la CsA de la resta de símptomes de la nefropatia crònica i determinar l'evolució del dany renal causat per la CsA per tal de poder ajustar el tractament amb dosis de CsA que no siguin tòxiques. Les ciclofilines són una família de proteïnes expressades de forma ubiqua que posseeixen activitat peptidil-prolil cis/trans isomerasa i que s'uneixen selectivament al fàrmac immunosupressor CsA. La disminució de l'expressió de les ciclofilines mitjançant RNA d'interferència demostra una davallada de la sensibilitat cel·lular al tractament amb CsA. L'anàlisi proteòmic realitzat entre cèl·lules amb una de les dues ciclofilines silenciades gènicament i cèl·lules sense interferir ens ha de permetre esbrinar la participació de la CsA, les ciclofilines A i B o be l'activitat PPIasa d'aquestes en la toxicitat renal.[eng] The use of CsA as a potent immunosuppressant has been limited by its severe nephrotoxic effects. The mechanisms involved are hemodynamic but also related with direct toxic effects of CsA on proximal tubule epithelial cells. CsA-induced toxicity analyses revealed that 10 µM CsA for 24h was the threshold condition to induce significant changes in cell viability and proteomic profile. At this concentration also appears apoptosis, decrease the percentage of cells in S phase and oxygen consumption. By means of high-throughput differential proteomic analyses and mass spectrometry techniques, we identified 38 differentially-expressed proteins on CsA-treated mouse PCT3 and human HK-2 cells, related to protein metabolism, response to damage, cell organization and cytoskeleton, energy metabolism, cell cycle and nucleobase/nucleoside/nucleotidic metabolism. Proteins identified in this work might be useful markers to eventually distinguish CsA toxicity from chronic allograft nephropathy in protocol biopsies of transplanted patients, facilitating the adjustment of CsA doses to non-toxic ranges, as well as, to study the impact of potential therapeutic interventions in an animal model. Cyclophilins are a family of proteins that posses peptidil prolil cis-trans isomerase activity and bind selectively at the immunosuppressant drug CsA. When we decrease the expression of the cyclophilin A or B by RNA interference techniques we observe that the cells are less sensible to CsA citotoxicity. Proteomic analysis between cells with cyclophilin A or B interfered and wild type cells will reveal the role of CsA, cyclophilins and the PPIase activity in the nephrotoxicity