A putative Leishmania DNA polymerase theta protects the parasite against oxidative damage

Leishmania infantum is a protozoan parasite that is phagocytized by human macrophages. The host macrophages kill the parasite by generating oxidative compounds that induce DNA damage. We have identified, purified and biochemically characterized a DNA polymerase θ from L. infantum (LiPolθ), demonstrating that it is a DNA-dependent DNA polymerase involved in translesion synthesis of 8oxoG, abasic sites and thymine glycol lesions. Stably transfected L. infantum parasites expressing LiPolθ were significantly more resistant to oxidative and interstrand cross-linking agents, e.g. hydrogen peroxide, cisplatin and mitomycin C. Moreover, LiPolθ-overexpressing parasites showed an increased infectivity toward its natural macrophage host. Therefore, we propose that LiPolθ is a translesion synthesis polymerase involved in parasite DNA damage tolerance, to confer resistance against macrophage aggression.Spanish Ministry of Science and Innovation [AGL2010-21806-C02-01 to V.L., BFU2012-37969 to L.B.]; Comunidad deMadrid [S2010/BMD-2361 to L.B.]; Ramón Areces Foundation [050204100014 to V.L.]Peer Reviewe

A non-replicative antibiotic resistance-free DNA vaccine delivered by the intranasal route protects against canine leishmaniasis

Leishmania infantum is the etiological agent of zoonotic visceral leishmaniasis (ZVL). The disease is endemic in Central and South America, Central and South East Asia, and the Mediterranean basin. Dogs are the main reservoir, with an estimated prevalence of approximately 2.5 million dogs in Southern Europe. Current treatments cause side effects, disease recurrence, and drug resistance. Therefore, the development of vaccines against canine leishmaniasis is necessary. We have generated a DNA vaccine based on the non-replicative antibiotic resistance marker-free plasmid vector pPAL that contains the encoding gene for the L. infantum activated protein kinase C receptor analog (LACK). Homologous pPAL-LACK prime-boost intranasal administration confers efficacious protection in Beagle dogs with a reduction of clinical signs and a statistically significant reduction of the parasite burden in the bone marrow of more than 90% of dogs after experimental infection with highly infective promastigotes. This DNA vaccine elicits a robust cellular immune response skewed towards the Th1 profile

Supplementary Materials for U-Th dating of carbonate crusts reveals Neanderthal origin of Iberian cave art

Materiales suplementarios al artículo de Science 2018 sobre las dataciones de arte rupestre en la Península Ibérica mediante U-TH

The antibiotic resistance-free vaccine based on the non-replicative pPAL vector is fully protective against SARS-CoV-2 in the murine model

1 p.Background. The main objective of this work is the development of a DNA vaccine against the SARS-CoV-2 virus based on the non-replicative antibiotic resistance marker gene-free the plasmid vector pPAL.Methods. We designed pPAL-Sfs and pPAL-structural protein constructs. A PCR cloning procedure was carried out to obtain the pPAL-based recombinant vaccine and laboratory-scale batches of pPAL-based SARS-CoV-2 vaccine constructs were produced. Transfection was performed on the human HEK293 cell line with the pPAL-based recombinant vaccine. Expression was evaluated by Western blot. Evaluation of protection experiments against a lethal dose of 105 pfu of SARS-CoV-2 (Wuhan-Hu-1 and Delta strains) in K18-hACE2 female mice vaccinated intramuscularly with a prime/boost regimen was carried out by assessing both humoral and cellular immune responses. ELISA was used to evaluate humoral immunity, namely total IgG, as well as IgG1 and IgG2c subclasses. The cellular immune response was evaluated by quantifying the rate of IFN-γ producing splenocyte clones used ELISpot. In addition, characterization of the cellular response was carried out by intracellular staining (ICS) to identify of the rate of IFN-γ and TNF-α producing TCD4+ lymphocytes, as well as the proportion of TCD8+ lymphocytes. Determination of viral load in the main target organs was done by RT-PCR (lungs, heart, and brain). Virus replication capacity was also evaluated in target organs tissues. In vitro assays were performed out to determine the levels of neutralizing antibodies against SARS-CoV-2 virus.Results. The results show 100% protection of vaccinated animals in terms of symptomatology, animal weight, level of neutralizing antibodies against the virus and the rate of IFN-γ and TNF-α producing splenocyte clones. The analysis of IgG subclasses shows a predominance of IgG2c over IgG1, indicating the activation of a specific and cytotoxic Th1 protective cellular immune response and immunological memory. Finally, a reduction of viral load has been observed in vaccinated animals, with a clear reduction of virus replication in the main target organs. Furthermore, there is a synergistic effect increasing protection using the two plasmids p-PALSfs + pPAL-structural protein (under patent).Conclusions. The DNA vaccine pPAL-Sfs + pPAL-structural protein is fully protective in the mouse model in terms of maintenance of body weight, absence of significant clinical signs, viral load clearance in target organs and immune response. The immune response included neutralizing antibodies, predominance of IgG2c over IgG1 ratio, a Th1 response, and a multifunctional cytotoxic cellular response.Peer reviewe

Non-replicative antibiotic resistance-free DNA vaccine encoding S and N proteins induces full protection in mice against SARS-CoV-2

17 p.-8 fig.SARS-CoV-2 vaccines currently in use have contributed to controlling the COVID-19 pandemic. Notwithstanding, the high mutation rate, fundamentally in the spike glycoprotein (S), is causing the emergence of new variants. Solely utilizing this antigen is a drawback that may reduce the efficacy of these vaccines. Herein we present a DNA vaccine candidate that contains the genes encoding the S and the nucleocapsid (N) proteins implemented into the non-replicative mammalian expression plasmid vector, pPAL. This plasmid lacks antibiotic resistance genes and contains an alternative selectable marker for production. The S gene sequence was modified to avoid furin cleavage (Sfs). Potent humoral and cellular immune responses were observed in C57BL/6J mice vaccinated with pPAL-Sfs + pPAL-N following a prime/boost regimen by the intramuscular route applying in vivo electroporation. The immunogen fully protected K18-hACE2 mice against a lethal dose (105 PFU) of SARS-CoV-2. Viral replication was completely controlled in the lungs, brain, and heart of vaccinated mice. Therefore, pPAL-Sfs + pPAL-N is a promising DNA vaccine candidate for protection from COVID-19.This work was funded by PTI-Salud Global (CSIC), Center for Technological and Industrial Development (CDTI), REACT-ANTICIPA-UCM (Comunidad de Madrid), and European Research Council (Advanced Grant VERDI, ERC2015AdG grant number 694160).Peer reviewe

Role of age and comorbidities in mortality of patients with infective endocarditis

[Purpose]: The aim of this study was to analyse the characteristics of patients with IE in three groups of age and to assess the ability of age and the Charlson Comorbidity Index (CCI) to predict mortality. [Methods]: Prospective cohort study of all patients with IE included in the GAMES Spanish database between 2008 and 2015.Patients were stratified into three age groups:<65 years,65 to 80 years,and ≥ 80 years.The area under the receiver-operating characteristic (AUROC) curve was calculated to quantify the diagnostic accuracy of the CCI to predict mortality risk. [Results]: A total of 3120 patients with IE (1327 < 65 years;1291 65-80 years;502 ≥ 80 years) were enrolled.Fever and heart failure were the most common presentations of IE, with no differences among age groups.Patients ≥80 years who underwent surgery were significantly lower compared with other age groups (14.3%,65 years; 20.5%,65-79 years; 31.3%,≥80 years). In-hospital mortality was lower in the <65-year group (20.3%,<65 years;30.1%,65-79 years;34.7%,≥80 years;p < 0.001) as well as 1-year mortality (3.2%, <65 years; 5.5%, 65-80 years;7.6%,≥80 years; p = 0.003).Independent predictors of mortality were age ≥ 80 years (hazard ratio [HR]:2.78;95% confidence interval [CI]:2.32–3.34), CCI ≥ 3 (HR:1.62; 95% CI:1.39–1.88),and non-performed surgery (HR:1.64;95% CI:11.16–1.58).When the three age groups were compared,the AUROC curve for CCI was significantly larger for patients aged <65 years(p < 0.001) for both in-hospital and 1-year mortality. [Conclusion]: There were no differences in the clinical presentation of IE between the groups. Age ≥ 80 years, high comorbidity (measured by CCI),and non-performance of surgery were independent predictors of mortality in patients with IE.CCI could help to identify those patients with IE and surgical indication who present a lower risk of in-hospital and 1-year mortality after surgery, especially in the <65-year group

Marco activo de recursos de innovación docente: Madrid

Una guía de espacios e instituciones para actividades educativas complementarias en enseñanza secundaria y Formación Profesional

Clonal chromosomal mosaicism and loss of chromosome Y in elderly men increase vulnerability for SARS-CoV-2

The pandemic caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2, COVID-19) had an estimated overall case fatality ratio of 1.38% (pre-vaccination), being 53% higher in males and increasing exponentially with age. Among 9578 individuals diagnosed with COVID-19 in the SCOURGE study, we found 133 cases (1.42%) with detectable clonal mosaicism for chromosome alterations (mCA) and 226 males (5.08%) with acquired loss of chromosome Y (LOY). Individuals with clonal mosaic events (mCA and/or LOY) showed a 54% increase in the risk of COVID-19 lethality. LOY is associated with transcriptomic biomarkers of immune dysfunction, pro-coagulation activity and cardiovascular risk. Interferon-induced genes involved in the initial immune response to SARS-CoV-2 are also down-regulated in LOY. Thus, mCA and LOY underlie at least part of the sex-biased severity and mortality of COVID-19 in aging patients. Given its potential therapeutic and prognostic relevance, evaluation of clonal mosaicism should be implemented as biomarker of COVID-19 severity in elderly people. Among 9578 individuals diagnosed with COVID-19 in the SCOURGE study, individuals with clonal mosaic events (clonal mosaicism for chromosome alterations and/or loss of chromosome Y) showed an increased risk of COVID-19 lethality

Análisis de los perfiles de expresión génica en los procesos de diferenciación de "Leishmania infantum" mediante microarrays de ADN

El objetivo fundamental de los estudios descritos en esta memoria es el análisis de la expresión génica diferencial global asociada a los procesos de diferenciación de Leishmania infantum, la especie causante de leishmaniasis visceral en la cuenca mediterránea

Nickel-resistance determinants in acidiphilium sp. Pm identified by genome-wide functional screening

11 p.-1 tab.-5 fig.Acidiphilium spp. are conspicuous dwellers of acidic, metal-rich environments. Indeed, they are among the most metalresistant organisms; yet little is known about the mechanisms behind the metal tolerance in this genus. Acidiphilium sp. PM is an environmental isolate from Rio Tinto, an acidic, metal-laden river located in southwestern Spain. The characterization of its metal resistance revealed a remarkable ability to tolerate high Ni concentrations. Here we report the screening of a genomic library of Acidiphilium sp. PM to identify genes involved in Ni resistance. This approach revealed seven different genes conferring Ni resistance to E. coli, two of which form an operon encoding the ATP-dependent protease HslVU (ClpQY). This protease was found to enhance resistance to both Ni and Co in E. coli, a function not previously reported. Other Niresistance determinants include genes involved in lipopolysaccharide biosynthesis and the synthesis of branched amino acids. The diversity of molecular functions of the genes recovered in the screening suggests that Ni resistance in Acidiphilium sp. PM probably relies on different molecular mechanisms. © 2014 San Martin-Uriz et al.This work was funded by European Research Council advanced grant ERC 250350 and Spanish Ministry of Science and Innovation grants CGL2009-11059, CGL-2009-10756/BOS and CONSOLIDER Ingenio 2010 (‘‘The Metagenome of the Iberian Peninsula’’, CE-CSD2007-00005). PSMU is supported by a ‘‘Calvo Rode´ s’’ fellowship from the National Institute for Aerospace Technology (INTA).Peer Reviewe