Your search keyword '"Carrero D"' showing total 11 results

1. Industrial optical sorting for marine plastic litter management

Author

Mendoza, A., Kortaberria, G., Carrero, D., Latorre, A., Basurko, O.C., and Peña-Rodríguez, C.

Published

2024

2. Diversity of Andean amphibians of the Tamá National Natural Park in Colombia: a survey for the presence of Batrachochytrium dendrobatidis

Author

Acevedo, A. A., Franco, R., and Carrero, D. A.

Subjects

Amphibians, Conservation, Chytridiomycosis, Diversity, Protected natural areas, Zoology, QL1-991

Abstract

Changes in diversity and possible decreases in populations of amphibians have not yet been determined in many areas in the Andes. This study aimed to develop an inventory of the biodiversity of amphibians in the Andean areas of the Tamá National Natural Park (Tamá NNP) and to evaluate the patterns of infection by Batrachochytrium dendrobatidis (Bd) in preserved and degraded areas. We performed samplings focused on three habitats (forest, open areas and streams) in four localities from 2,000 to 3,200 m in altitude. Fourteen species were recorded, 12 of which were positive for Bd. A total of 541 individuals were diagnosed and 100 were positive. Our analyses showed that preserved areas play an important role in keeping many individuals Bd–free as compared to those in degraded areas. This was the first study to evaluate diversity and infection by Bd in the northeast region of Colombia. Our findings may help improve our knowledge of the diversity of amphibian species in the area and facilitate the implementation of action plans to mitigate the causes associated with the decrease in amphibian populations.

Published

2016

3. 397 The role of Keratins in modulating carcinogenesis via communication with cells of the immune system

Author

Sequeira, I., primary, Neves, J., additional, Carrero, D., additional, Liakath-Ali, K., additional, Morgan, P., additional, Lombardi, G., additional, and Watt, F.M., additional

Published

2019

4. Assessing the impact of climate change on agriculture in Norte de Santander, Colombia

Author

Núñez, J J, primary, Carrero, D M, additional, Carvajal, J C, additional, and Mendoza, O, additional

Published

2018

5. Insights into aging mechanisms from comparative genomics in orange and silver roughies.

Author

Carrero D, Pascual-Torner M, Álvarez-Puente D, Quesada V, García-Gómez C, and López-Otín C

Subjects

Animals, Fishes genetics, Genomic Instability, Longevity genetics, Genome, Genomics methods, Aging genetics

Abstract

The demersal fish orange roughy (Hoplostethus atlanticus) can live for up to 250 years, twenty times more than its congener silver roughy (Hoplostethus mediterraneus). Studies of Hoplostethus have focused mainly on its ecology and conservation due to its vulnerability to commercial fishing. In this work, we present the de novo genomes of orange and silver roughies and explore the genomic mechanisms that could contribute to such differential longevities. Using comparative genomics on a list of more than 400 genes, we identified gene candidates with differential residue changes in Hoplostethus that are related to genomic instability, disabled macroautophagy and intercellular communication. We hypothesized that these mechanisms could have been selected as adaptations to the deep environment and, as an epiphenomenon of these mechanisms, may have contributed to an extension of the lifespan of H. atlanticus., (© 2024. The Author(s).)

Published

2024

6. Comparative genomics of mortal and immortal cnidarians unveils novel keys behind rejuvenation.

Author

Pascual-Torner M, Carrero D, Pérez-Silva JG, Álvarez-Puente D, Roiz-Valle D, Bretones G, Rodríguez D, Maeso D, Mateo-González E, Español Y, Mariño G, Acuña JL, Quesada V, and López-Otín C

Subjects

Animals, Genomics, Life Cycle Stages genetics, Transcriptome, Hydrozoa genetics, Hydrozoa growth & development, Rejuvenation

Abstract

Turritopsis dohrnii is the only metazoan able to rejuvenate repeatedly after its medusae reproduce, hinting at biological immortality and challenging our understanding of aging. We present and compare whole-genome assemblies of T. dohrnii and the nonimmortal Turritopsis rubra using automatic and manual annotations, together with the transcriptome of life cycle reversal (LCR) process of T. dohrnii. We have identified variants and expansions of genes associated with replication, DNA repair, telomere maintenance, redox environment, stem cell population, and intercellular communication. Moreover, we have found silencing of polycomb repressive complex 2 targets and activation of pluripotency targets during LCR, which points to these transcription factors as pluripotency inducers in T. dohrnii . Accordingly, we propose these factors as key elements in the ability of T. dohrnii to undergo rejuvenation.

Published

2022

7. Differential mechanisms of tolerance to extreme environmental conditions in tardigrades.

Author

Carrero D, Pérez-Silva JG, Quesada V, and López-Otín C

Subjects

Animals, Gene Amplification, Genomics, Mutation, Missense, Water, Adaptation, Physiological genetics, Extremophiles physiology, Genome physiology, Molecular Sequence Annotation, Tardigrada physiology

Abstract

Tardigrades, also known as water bears, are small aquatic animals that inhabit marine, fresh water or limno-terrestrial environments. While all tardigrades require surrounding water to grow and reproduce, species living in limno-terrestrial environments (e.g. Ramazzottius varieornatus) are able to undergo almost complete dehydration by entering an arrested state known as anhydrobiosis, which allows them to tolerate ionic radiation, extreme temperatures and intense pressure. Previous studies based on comparison of the genomes of R. varieornatus and Hypsibius dujardini - a less tolerant tardigrade - have pointed to potential mechanisms that may partially contribute to their remarkable ability to resist extreme physical conditions. In this work, we have further annotated the genomes of both tardigrades using a guided approach in search for novel mechanisms underlying the extremotolerance of R. varieornatus. We have found specific amplifications of several genes, including MRE11 and XPC, and numerous missense variants exclusive of R. varieornatus in CHEK1, POLK, UNG and TERT, all of them involved in important pathways for DNA repair and telomere maintenance. Taken collectively, these results point to genomic features that may contribute to the enhanced ability to resist extreme environmental conditions shown by R. varieornatus.

Published

2019

8. Specific combinations of biallelic POLR3A variants cause Wiedemann-Rautenstrauch syndrome.

Author

Paolacci S, Li Y, Agolini E, Bellacchio E, Arboleda-Bustos CE, Carrero D, Bertola D, Al-Gazali L, Alders M, Altmüller J, Arboleda G, Beleggia F, Bruselles A, Ciolfi A, Gillessen-Kaesbach G, Krieg T, Mohammed S, Müller C, Novelli A, Ortega J, Sandoval A, Velasco G, Yigit G, Arboleda H, Lopez-Otin C, Wollnik B, Tartaglia M, and Hennekam RC

Subjects

Adult, Amino Acid Sequence, Base Sequence, Computational Biology, Consanguinity, Female, Genotype, Haplotypes, Humans, Male, Models, Molecular, Mutation, Pedigree, Protein Conformation, RNA Polymerase III chemistry, Reproducibility of Results, Sequence Analysis, DNA, Structure-Activity Relationship, Exome Sequencing, Alleles, Fetal Growth Retardation diagnosis, Fetal Growth Retardation genetics, Genetic Association Studies, Genetic Predisposition to Disease, Genetic Variation genetics, Progeria diagnosis, Progeria genetics, RNA Polymerase III genetics

Abstract

Background: Wiedemann-Rautenstrauch syndrome (WRS) is a form of segmental progeria presenting neonatally, characterised by growth retardation, sparse scalp hair, generalised lipodystrophy with characteristic local fatty tissue accumulations and unusual face. We aimed to understand its molecular cause., Methods: We performed exome sequencing in two families, targeted sequencing in 10 other families and performed in silico modelling studies and transcript processing analyses to explore the structural and functional consequences of the identified variants., Results: Biallelic POLR3A variants were identified in eight affected individuals and monoallelic variants of the same gene in four other individuals. In the latter, lack of genetic material precluded further analyses. Multiple variants were found to affect POLR3A transcript processing and were mostly located in deep intronic regions, making clinical suspicion fundamental to detection. While biallelic POLR3A variants have been previously reported in 4H syndrome and adolescent-onset progressive spastic ataxia, recurrent haplotypes specifically occurring in individuals with WRS were detected. All WRS-associated POLR3A amino acid changes were predicted to perturb substantially POLR3A structure/function., Conclusion: Biallelic mutations in POLR3A , which encodes for the largest subunit of the DNA-dependent RNA polymerase III, underlie WRS. No isolated functional sites in POLR3A explain the phenotype variability in POLR3A-related disorders. We suggest that specific combinations of compound heterozygous variants must be present to cause the WRS phenotype. Our findings expand the molecular mechanisms contributing to progeroid disorders., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2018. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2018

9. Immunomodulatory role of Keratin 76 in oral and gastric cancer.

Author

Sequeira I, Neves JF, Carrero D, Peng Q, Palasz N, Liakath-Ali K, Lord GM, Morgan PR, Lombardi G, and Watt FM

Subjects

5'-Nucleotidase metabolism, Animals, Antigens, CD metabolism, Apyrase metabolism, Cell Line, Tumor, Female, Flow Cytometry, Fluorescent Antibody Technique, Humans, In Situ Hybridization, Fluorescence, In Vitro Techniques, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Mice, Mutant Strains, T-Lymphocytes, Regulatory metabolism, Keratins immunology, Mouth Neoplasms immunology, Stomach Neoplasms immunology

Abstract

Keratin 76 (Krt76) is expressed in the differentiated epithelial layers of skin, oral cavity and squamous stomach. Krt76 downregulation in human oral squamous cell carcinomas (OSCC) correlates with poor prognosis. We show that genetic ablation of Krt76 in mice leads to spleen and lymph node enlargement, an increase in regulatory T cells (Tregs) and high levels of pro-inflammatory cytokines. Krt76 -/- Tregs have increased suppressive ability correlated with increased CD39 and CD73 expression, while their effector T cells are less proliferative than controls. Loss of Krt76 increases carcinogen-induced tumours in tongue and squamous stomach. Carcinogenesis is further increased when Treg levels are elevated experimentally. The carcinogenesis response includes upregulation of pro-inflammatory cytokines and enhanced accumulation of Tregs in the tumour microenvironment. Tregs also accumulate in human OSCC exhibiting Krt76 loss. Our study highlights the role of epithelial cells in modulating carcinogenesis via communication with cells of the immune system.

Published

2018

10. Novel LMNA mutations cause an aggressive atypical neonatal progeria without progerin accumulation.

Author

Soria-Valles C, Carrero D, Gabau E, Velasco G, Quesada V, Bárcena C, Moens M, Fieggen K, Möhrcken S, Owens M, Puente DA, Asensio Ó, Loeys B, Pérez A, Benoit V, Wuyts W, Lévy N, Hennekam RC, De Sandre-Giovannoli A, and López-Otín C

Abstract

Background: Progeroid syndromes are genetic disorders that recapitulate some phenotypes of physiological ageing. Classical progerias, such as Hutchinson-Gilford progeria syndrome (HGPS), are generally caused by mutations in LMNA leading to accumulation of the toxic protein progerin and consequently, to nuclear envelope alterations. In this work, we describe a novel phenotypic feature of the progeria spectrum affecting three unrelated newborns and identify its genetic cause., Methods and Results: Patients reported herein present an extremely homogeneous phenotype that somewhat recapitulates those of patients with HGPS and mandibuloacral dysplasia. However, pathological signs appear earlier, are more aggressive and present distinctive features including episodes of severe upper airway obstruction. Exome and Sanger sequencing allowed the identification of heterozygous de novo c.163G>A, p.E55K and c.164A>G, p.E55G mutations in LMNA as the alterations responsible for this disorder. Functional analyses demonstrated that fibroblasts from these patients suffer important dysfunctions in nuclear lamina, which generate profound nuclear envelope abnormalities but without progerin accumulation. These nuclear alterations found in patients' dermal fibroblasts were also induced by ectopic expression of the corresponding site-specific LMNA mutants in control human fibroblasts., Conclusions: Our results demonstrate the causal role of p.E55K and p.E55G lamin A mutations in a disorder which manifests novel phenotypic features of the progeria spectrum characterised by neonatal presentation and aggressive clinical evolution, despite being caused by lamin A/C missense mutations with effective prelamin A processing., Competing Interests: Competing interests: None declared., (Published by the BMJ Publishing Group Limited. For permission to use (where not already granted under a licence) please go to http://www.bmj.com/company/products-services/rights-and-licensing/.)

Published

2016

11. Hallmarks of progeroid syndromes: lessons from mice and reprogrammed cells.

Author

Carrero D, Soria-Valles C, and López-Otín C

Subjects

Animals, Disease Models, Animal, Humans, Mice, Models, Biological, Progeria therapy, Rejuvenation, Syndrome, Cellular Reprogramming, Progeria pathology

Abstract

Ageing is a process that inevitably affects most living organisms and involves the accumulation of macromolecular damage, genomic instability and loss of heterochromatin. Together, these alterations lead to a decline in stem cell function and to a reduced capability to regenerate tissue. In recent years, several genetic pathways and biochemical mechanisms that contribute to physiological ageing have been described, but further research is needed to better characterize this complex biological process. Because premature ageing (progeroid) syndromes, including progeria, mimic many of the characteristics of human ageing, research into these conditions has proven to be very useful not only to identify the underlying causal mechanisms and identify treatments for these pathologies, but also for the study of physiological ageing. In this Review, we summarize the main cellular and animal models used in progeria research, with an emphasis on patient-derived induced pluripotent stem cell models, and define a series of molecular and cellular hallmarks that characterize progeroid syndromes and parallel physiological ageing. Finally, we describe the therapeutic strategies being investigated for the treatment of progeroid syndromes, and their main limitations., (© 2016. Published by The Company of Biologists Ltd.)

Published

2016