Drug-eluting stents compared to bare-metal stents improve short-term survival in patients with acute myocardial infarction undergoing primary percutaneous coronary intervention: a nationwide prospective analysis of the AMIS Plus registry.

BACKGROUND: Recently, it has been suggested that the type of stent used in primary percutaneous coronary interventions (pPCI) might impact upon the outcomes of patients with acute myocardial infarction (AMI). Indeed, drug-eluting stents (DES) reduce neointimal hyperplasia compared to bare-metal stents (BMS). Moreover, the later generation DES, due to its biocompatible polymer coatings and stent design, allows for greater deliverability, improved endothelial healing and therefore less restenosis and thrombus generation. However, data on the safety and performance of DES in large cohorts of AMI is still limited. AIM: To compare the early outcome of DES vs. BMS in AMI patients. METHODS: This was a prospective, multicentre analysis containing patients from 64 hospitals in Switzerland with AMI undergoing pPCI between 2005 and 2013. The primary endpoint was in-hospital all-cause death, whereas the secondary endpoint included a composite measure of major adverse cardiac and cerebrovascular events (MACCE) of death, reinfarction, and cerebrovascular event. RESULTS: Of 20,464 patients with a primary diagnosis of AMI and enrolled to the AMIS Plus registry, 15,026 were referred for pPCI and 13,442 received stent implantation. 10,094 patients were implanted with DES and 2,260 with BMS. The overall in-hospital mortality was significantly lower in patients with DES compared to those with BMS implantation (2.6% vs. 7.1%,p < 0.001). The overall in-hospital MACCE after DES was similarly lower compared to BMS (3.5% vs. 7.6%, p < 0.001). After adjusting for all confounding covariables, DES remained an independent predictor for lower in-hospital mortality (OR 0.51,95% CI 0.40-0.67, p < 0.001). Since groups differed as regards to baseline characteristics and pharmacological treatment, we performed a propensity score matching (PSM) to limit potential biases. Even after the PSM, DES implantation remained independently associated with a reduced risk of in-hospital mortality (adjusted OR 0.54, 95% CI 0.39-0.76, p < 0.001). CONCLUSIONS: In unselected patients from a nationwide, real-world cohort, we found DES, compared to BMS, was associated with lower in-hospital mortality and MACCE. The identification of optimal treatment strategies of patients with AMI needs further randomised evaluation; however, our findings suggest a potential benefit with DES.

Buried in the Middle but Guilty: Intronic Mutations in the TCIRG1 Gene Cause Human Autosomal Recessive Osteopetrosis.

Autosomal recessive osteopetrosis (ARO) is a rare genetic bone disease with genotypic and phenotypic heterogeneity, sometimes translating into delayed diagnosis and treatment. In particular, cases of intermediate severity often constitute a diagnostic challenge and represent good candidates for exome sequencing. Here, we describe the tortuous path to identification of the molecular defect in two siblings, in which osteopetrosis diagnosed in early childhood followed a milder course, allowing them to reach the adult age in relatively good conditions with no specific therapy. No clearly pathogenic mutation was identified either with standard amplification and resequencing protocols or with exome sequencing analysis. While evaluating the possible impact of a 3'UTR variant on the TCIRG1 expression, we found a novel single nucleotide change buried in the middle of intron 15 of the TCIRG1 gene, about 150 nucleotides away from the closest canonical splice site. By sequencing a number of independent cDNA clones covering exons 14 to 17, we demonstrated that this mutation reduced splicing efficiency but did not completely abrogate the production of the normal transcript. Prompted by this finding, we sequenced the same genomic region in 33 patients from our unresolved ARO cohort and found three additional novel single nucleotide changes in a similar location and with a predicted disruptive effect on splicing, further confirmed in one of them at the transcript level. Overall, we identified an intronic region in TCIRG1 that seems to be particularly prone to splicing mutations, allowing the production of a small amount of protein sufficient to reduce the severity of the phenotype usually associated with TCIRG1 defects. On this basis, we would recommend including TCIRG1 not only in the molecular work-up of severe infantile osteopetrosis but also in intermediate cases and carefully evaluating the possible effects of intronic changes. © 2015 American Society for Bone and Mineral Research.

The Impact of Infection on Chronic Allograft Dysfunction and Allograft Survival After Solid Organ Transplantation.

Infectious diseases after solid organ transplantation (SOT) are a significant cause of morbidity and reduced allograft and patient survival; however, the influence of infection on the development of chronic allograft dysfunction has not been completely delineated. Some viral infections appear to affect allograft function by both inducing direct tissue damage and immunologically related injury, including acute rejection. In particular, this has been observed for cytomegalovirus (CMV) infection in all SOT recipients and for BK virus infection in kidney transplant recipients, for community-acquired respiratory viruses in lung transplant recipients, and for hepatitis C virus in liver transplant recipients. The impact of bacterial and fungal infections is less clear, but bacterial urinary tract infections and respiratory tract colonization by Pseudomonas aeruginosa and Aspergillus spp appear to be correlated with higher rates of chronic allograft dysfunction in kidney and lung transplant recipients, respectively. Evidence supports the beneficial effects of the use of antiviral prophylaxis for CMV in improving allograft function and survival in SOT recipients. Nevertheless, there is still a need for prospective interventional trials assessing the potential effects of preventive and therapeutic strategies against bacterial and fungal infection for reducing or delaying the development of chronic allograft dysfunction.

NBAS mutations cause a multisystem disorder involving bone, connective tissue, liver, immune system, and retina.

We report two unrelated patients with a multisystem disease involving liver, eye, immune system, connective tissue, and bone, caused by biallelic mutations in the neuroblastoma amplified sequence (NBAS) gene. Both presented as infants with recurrent episodes triggered by fever with vomiting, dehydration, and elevated transaminases. They had frequent infections, hypogammaglobulinemia, reduced natural killer cells, and the Pelger-Huët anomaly of their granulocytes. Their facial features were similar with a pointed chin and proptosis; loose skin and reduced subcutaneous fat gave them a progeroid appearance. Skeletal features included short stature, slender bones, epiphyseal dysplasia with multiple phalangeal pseudo-epiphyses, and small C1-C2 vertebrae causing cervical instability and myelopathy. Retinal dystrophy and optic atrophy were present in one patient. NBAS is a component of the synthaxin-18 complex and is involved in nonsense-mediated mRNA decay control. Putative loss-of-function mutations in NBAS are already known to cause disease in humans. A specific founder mutation has been associated with short stature, optic nerve atrophy and Pelger-Huët anomaly of granulocytes (SOPH) in the Siberian Yakut population. A more recent report associates NBAS mutations with recurrent acute liver failure in infancy in a group of patients of European descent. Our observations indicate that the phenotypic spectrum of NBAS deficiency is wider than previously known and includes skeletal, hepatic, metabolic, and immunologic aspects. Early recognition of the skeletal phenotype is important for preventive management of cervical instability. © 2015 Wiley Periodicals, Inc.

Influence of PTPN2 and pre-existing immunity on the generation of effector and memory CD8 T cells

Notre système immunitaire joue un rôle important pour la protection envers les maladies infectieuses. Au cours d'une réponse à une infection primaire, des cellules B et des cellules T spécifiques, dirigées contre le pathogène en question, sont générées et certaines d'entre elles deviennent des cellules dites mémoires. Leur fonction est de nous protéger contre une nouvelle infection avec le même pathogène, une infection secondaire. Dans certaines situations, comme c'est par exemple le cas avec la grippe, les pathogènes ne sont pas toujours complètement identiques et les cellules mémoires ne sont pas à même d'assurer leur rôle protecteur et d'empêcher une réinfection. Pourtant, on ne sait à l'heure actuelle que très peu comment une immunité acquise, mais non protectrice, influence le développement d'une réponse immunitaire ultérieure. Dans la première partie de cette thèse, nous avons étudié comment les cellules T mémoires cytotoxiques altèrent la réponse de cellules T cytotoxiques nouvellement induites. Au cours d'une réaction immunitaire dirigée contre une infection primaire, un vaste répertoire de lymphocytes T est créé, constitué de cellules T possédant divers degrés d'affinité pour le pathogène. Lors d'une infection secondaire, seules les cellules T ayant une forte affinité pour le pathogène participent à la réponse. Nous avons pu démontrer que ce phénomène de restriction du répertoire des cellules T est principalement causé par les cellules T mémoires qui sont à même de reconnaître un antigène pathogénique présent dans les deux infections. Dans un deuxième projet, nous avons étudié comment l'absence de PTPN2 influence la réponse des cellules T. Chez l'homme, une mutation dans le gène de PTPN2 est associée à des maladies auto-immunes et résulte en une activité réduite de cette phosphatase dans les lymphocytes T. Nous avons montré que la baisse d'activité de la phosphatase PTNP2 conduit à une meilleure expansion des cellules T ayant une qualité comparable à des cellules T auto-antigène spécifiques. De plus, nous avons observé que la survie de ces cellules T effectues ayant une phosphatase diminuée est nettement améliorée. Cela peut conduire à une réponse immunitaire plus efficace ou, éventuellement, à une pathologie auto-immune plus grave. En outre, nos résultats montrent qu'en manipulant l'activité de cette phosphatase, il est possible d'augmenter l'efficacité du transfert des cellules T dans un hôte receveur. Un tel transfert de cellules T est pratiqué chez des patients atteints de tumeurs. Nos travaux suggèrent que la manipulation de la phosphatase PTPN2 pourrait donc représenter une approche thérapeutique novatrice et prometteuse. -- Notre système immunitaire joue un rôle important pour la protection contre les maladies. Les cellules T CD8+ ont une importance primordiale pour le contrôle d'infections primaires causées par des virus ou bactéries, mais également contre certaines tumeurs. Par conséquent, mieux comprendre les exigences nécessaires à l'induction de bonnes réponses des cellules T CD8 pourrait nous permettre de construire des vaccins contre les pathogènes contre lesquels nous n'avons pour l'instant pas de vaccins mais aussi d'améliorer les réactions immunitaires dirigées anti-tumorales. Dans la première partie de cette thèse, nous avons étudié l'influence qu'une immunité préexistante a sur la réponse des cellules T CD8. Nous sommes souvent exposés à des pathogènes qui sont similaires mais pas identiques à ceux que nous avons rencontrés auparavant. De telles infections hétérologues ne sont pas l'objet de beaucoup d'études et certains exemples indiquent même qu'une immunité préexistante partielle peut mener à une aggravation de la maladie. Nous avons étudié le répertoire des lymphocytes T CD8 qui sont générés lors d'une rencontre avec un nouvel antigène, et ce en comparant infection primaire et secondaire. En utilisant le modèle expérimental d'infections à Listeria monocytogenes, nous avons pu montrer que lors d'une infection primaire, un répertoire diversifié comprenant des cellules T CD8 de forte et faible affinité est constitué. Au contraire, dans le cas d'une infection secondaire, le répertoire des cellules T est fortement limité et seulement les lymphocytes T de forte affinité sont impliqués dans la réponse immunitaire. Nous avons pu démontrer que ces Rangements sont provoqués par des cellules T CD8 mémoires capables de reconnaître un antigène présent dans les deux infections. Cette augmentation du seuil d'activation des cellules effectrices est majoritairement causée par les lymphocytes T CD8 mémoires non transférables. Ces observations indiquent que les vaccins visant à induire des cellules T anti-tumorales de faible affinité seraient inefficaces si le vaccin contient des épitopes contre lesquels il existe une mémoire immunologique. Les réponses immunitaires conduites par les cellules T contre les antigènes tumoraux dépendent des cellules T CD8 de faible réactivité contre les antigènes tumoraux puisque les cellules à forte réactivité sont éliminées par les mécanismes de tolérance. Nous basant sur l'existence dans la littérature de preuves indiquant que PTPN2 influence la réponse des cellules T de faible affinité, nous nous sommes intéressés à comprendre comment PTPN2 impacte les réponses des cellules T CD8 en général. Nous avons remarqué que des cellules T CD8 déficientes en PTPN2 exhibent une meilleure capacité à proliférer suite à une faible ou courte stimulation du récepteur des lymphocytes T. La phase effectrice est prolongée et la contraction retardée résultant ainsi à globalement plus de cellules effectrices. Ce phénomène est également accompagné d'une meilleure survie des cellules effectrices de différentiation terminale. Une fois transférées dans un nouvel hôte receveur, les cellules effectrices terminales KLRG1+CD127- déficientes en phosphatase PTPN2 peuvent survivre et se transformer en cellules mémoires CD127+ fonctionnelles. De façon inattendue, nous avons découvert que l'élimination de PTPN2 améliore l'efficacité du transfert et la formation des cellules mémoires ainsi que leur capacité protectrice. Manipuler l'activité de cette phosphatase apparaît donc comme une approche intéressante et prometteuse pour la thérapie cellulaire par transfert adoptif de lymphocytes T. Nos observations montrent que la manipulation d'un facteur intrinsèque, l'absence de PTPN2, peut, dans certaines circonstances, améliorer la réponse des cellules T. Une meilleure connaissance des mécanismes contrôlant la réponse des lymphocytes T CD8 pourrait donc permettre la manipulation de ces derniers et conduire à des réponses immunitaires plus vigoureuses. Si ces réponses sont déclenchées par l'utilisation de vaccins, il est nécessaire de considérer l'historique d'une exposition préalable à des agents pathogènes ou à des vaccins puisque celle-ci peut, comme nous l'avons démontré, influencer le répertoire des cellules T recrutées dans la réponse immunitaire et, par conséquent, modifier l'aptitude de notre système immunitaire à faire face à une infection. -- Our immune system plays an important role in the protection from disease. CD8 T cells are critical for the control of primary infections with most viruses and certain bacteria as well as against some tumors. Therefore, better knowledge of CD8 T cell responses might enable us to generate vaccines against pathogens for which currently no vaccines are available or to improve anti-tumor immune responses. In the first part of this thesis we addressed the issue how previously acquired immunity impacts on the response of CD8 T cells. We are often exposed to pathogens that are related but not identical to the previously encountered ones. Such heterologous infections are not well studied and there are some indications that partial pre-existing immunity may in some cases even lead to an enhancement of disease. We specifically studied the T cell repertoire of CD8 T cells that are responding to a newly encountered antigen in secondary compared to primary infections. Using the experimental model of Listeria monocytogenes infections, we showed that in primary infections a wide repertoire including high and low affinity CD8 T cells is recruited into the immune response. In contrast to this, in secondary infections, the T cell repertoire is severely restricted and only T cells of high affinity are responding. We were able to pinpoint this difference to the presence of memory CD8 T cells that recognize an antigen that is shared between the two subsequent infections. This increase in the activation threshold was most effectively mediated via non-transferable memory CD8 T cells. This would argue that vaccines targeting low affinity tumor-specific T cells would fail if the vaccine contains previously encountered CD8 T cell epitopes. T cell mediated immune responses to tumor antigen rely often on T cells which weakly react to tumor antigen as high affinity T cells are eliminated by tolerance mechanisms. Following indication in the literature that PTPN2 impacts on the response of such weakly antigen-reactive T cells, we investigated how PTPN2 impacts in general the response of CD8 T cells. We observed that CD8 T cells lacking PTPN2 show an enhanced expansion following weak or short-term T cell receptor stimulation. The effector phase is prolonged and contraction delayed thus resulting in overall more effector cells. This is accompanied by a better survival of terminal effector cells. When transferred into new recipients, KLRG1+CD127- terminal effector cells lacking PTPN2 can survive and convert into CD127+ functional memory cells. Surprisingly, we discovered that elimination of PTPN2 enhances the transfer efficacy and formation of memory cells as well as the protective capacity. Targeting PTPN2 might thus be a promising approach for adoptive T cell therapy. Our observations show how the manipulation of an intrinsic factor, the absence of PTPN2, can enhance T cell responses under certain circumstances. A better understanding of underlying mechanisms for the control of CDS T cell responses might enable the manipulation of these and allow for more powerful responses. If these responses are induced through vaccines it is imperative that the previous history of exposure to pathogens or vaccines is considered as it can, as we have shown in this thesis, influence the recruited T cell repertoire and thus possibly the ability to handle the infection.

Improving the molecular diagnosis of Chlamydia psittaci and Chlamydia abortus infection with a species-specific duplex real-time PCR.

Chlamydia psittaci and Chlamydia abortus are closely related intracellular bacteria exhibiting different tissue tropism that may cause severe but distinct infection in humans. C. psittaci causes psittacosis, a respiratory zoonotic infection transmitted by birds. C. abortus is an abortigenic agent in small ruminants, which can also colonize the human placenta and lead to foetal death and miscarriage. Infections caused by C. psittaci and C. abortus are underestimated mainly due to diagnosis difficulties resulting from their strict intracellular growth. We developed a duplex real-time PCR to detect and distinguish these two bacteria in clinical samples. The first PCR (PCR1) targeted a sequence of the 16S-23S rRNA operon allowing the detection of both C. psittaci and C. abortus. The second PCR (PCR2) targeted the coding DNA sequence CPSIT_0607 unique to C. psittaci. The two PCRs showed 100 % detection for ≥ 10 DNA copies per reaction (1000 copies ml- 1). Using a set of 120 samples, including bacterial reference strains, clinical specimens and infected cell culture material, we monitored 100 % sensitivity and 100 % specificity for the detection of C. psittaci and C. abortus for PCR1. When PCR1 was positive, PCR2 could discriminate C. psittaci from C. abortus with a positive predictive value of 100 % and a negative predictive value of 88 %. In conclusion, this new duplex PCR represents a low-cost and time-saving method with high-throughput potential, expected to improve the routine diagnosis of psittacosis and pregnancy complication in large-scale screening programs and also during outbreaks.

Undressing of Waddlia chondrophila to enrich its outer membrane proteins to develop a new species-specific ELISA.

Waddlia chondrophila, an obligate intracellular bacterium of the Chlamydiales order, is considered as an agent of bovine abortion and a likely cause of miscarriage in humans. Its role in respiratory diseases was questioned after the detection of its DNA in clinical samples taken from patients suffering from pneumonia or bronchiolitis. To better define the role of Waddlia in both miscarriage and pneumonia, a tool allowing large-scale serological investigations of Waddlia seropositivity is needed. Therefore, enriched outer membrane proteins of W. chondrophila were used as antigens to develop a specific ELISA. After thorough analytical optimization, the ELISA was validated by comparison with micro-immunofluorescence and it showed a sensitivity above 85% with 100% specificity. The ELISA was subsequently applied to human sera to specify the role of W. chondrophila in pneumonia. Overall, 3.6% of children showed antibody reactivity against W. chondrophila but no significant difference was observed between children with and without pneumonia. Proteomic analyses were then performed using mass spectrometry, highlighting members of the outer membrane protein family as the dominant proteins. The major Waddlia putative immunogenic proteins were identified by immunoblot using positive and negative human sera. The new ELISA represents an efficient tool with high throughput applications. Although no association with pneumonia and Waddlia seropositivity was observed, this ELISA could be used to specify the role of W. chondrophila in miscarriage and in other diseases.

Compensatory embryonic response to allele-specific inactivation of the murine X-linked gene Hcfc1.

Early in female mammalian embryonic development, cells randomly inactivate one of the two X chromosomes to achieve overall equal inactivation of parental X-linked alleles. Hcfc1 is a highly conserved X-linked mouse gene that encodes HCF-1 - a transcriptional co-regulator implicated in cell proliferation in tissue culture cells. By generating a Cre-recombinase inducible Hcfc1 knock-out (Hcfc1(lox)) allele in mice, we have probed the role of HCF-1 in actively proliferating embryonic cells and in cell-cycle re-entry of resting differentiated adult cells using a liver regeneration model. HCF-1 function is required for both extraembryonic and embryonic development. In heterozygous Hcfc1(lox/+) female embryos, however, embryonic epiblast-specific Cre-induced Hcfc1 deletion (creating an Hcfc1(epiKO) allele) around E5.5 is well tolerated; it leads to a mixture of HCF-1-positive and -negative epiblast cells owing to random X-chromosome inactivation of the wild-type or Hcfc1(epiKO) mutant allele. At E6.5 and E7.5, both HCF-1-positive and -negative epiblast cells proliferate, but gradually by E8.5, HCF-1-negative cells disappear owing to cell-cycle exit and apoptosis. Although generating a temporary developmental retardation, the loss of HCF-1-negative cells is tolerated, leading to viable heterozygous offspring with 100% skewed inactivation of the X-linked Hcfc1(epiKO) allele. In resting adult liver cells, the requirement for HCF-1 in cell proliferation was more evident as hepatocytes lacking HCF-1 fail to re-enter the cell cycle and thus to proliferate during liver regeneration. The survival of the heterozygous Hcfc1(epiKO/+) female embryos, even with half the cells genetically compromised, illustrates the developmental plasticity of the post-implantation mouse embryo - in this instance, permitting survival of females heterozygous for an X-linked embryonic lethal allele.

Clinically-relevant threshold of preformed donor-specific anti-HLA antibodies in kidney transplantation.

BACKGROUND: Pretransplant anti-HLA donor-specific antibodies (DSA) are recognized as a risk factor for acute antibody-mediated rejection (AMR) in kidney transplantation. The predictive value of C4d-fixing capability by DSA or of IgG DSA subclasses for acute AMR in the pretransplant setting has been recently studied. In addition DSA strength assessed by mean fluorescence intensity (MFI) may improve risk stratification. We aimed to analyze the relevance of preformed DSA and of DSA MFI values. METHODS: 280 consecutive patients with negative complement-dependent cytotoxicity crossmatches received a kidney transplant between 01/2008 and 03/2014. Sera were screened for the presence of DSA with a solid-phase assays on a Luminex flow analyzer, and the results were correlated with biopsy-proven acute AMR in the first year and survival. RESULTS: Pretransplant anti-HLA antibodies were present in 72 patients (25.7%) and 24 (8.6%) had DSA. There were 46 (16.4%) acute rejection episodes, 32 (11.4%) being cellular and 14 (5.0%) AMR. The incidence of acute AMR was higher in patients with pretransplant DSA (41.7%) than in those without (1.6%) (p<0.001). The median cumulative MFI (cMFI) of the group DSA+/AMR+ was 5680 vs 2208 in DSA+/AMR- (p=0.058). With univariate logistic regression a threshold value of 5280 cMFI was predictive for acute AMR. DSA cMFI's ability to predict AMR was also explored by ROC analysis. AUC was 0.728 and the best threshold was a cMFI of 4340. Importantly pretransplant DSA>5280 cMFI had a detrimental effect on 5-year graft survival. CONCLUSIONS: Preformed DSA cMFI values were clinically-relevant for the prediction of acute AMR and graft survival in kidney transplantation. A threshold of 4300-5300 cMFI was a significant outcome predictor.