Marta Gil-Barrachina scite author profile

Marta Gil-Barrachina

5Publications

68Citation Statements Received

97Citation Statements Given

How they've been cited

How they cite others

216

Affiliations

Jaume I University, Instituto de Investigación Sanitaria La Fe

Publications

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The effect of age on the acquisition and selection of cancer driver mutations in sun-exposed normal skin

et al. 2021

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Background: The accumulation of somatic mutations contributes to ageing and cancer. Sunlight is the principal aetiological factor associated with skin cancer development. However, genetic and phenotypic factors also contribute to skin cancer risk. This study aimed at exploring the role of photoaging, as well as other well-known epidemiological risk factors, in the accumulation of somatic mutations in cancer-free human epidermis. Material and methods: We deeply sequenced 46 genes in normal skin biopsies from 123 healthy donors, from which phenotypic data (including age, pigmentation-related genotype and phenotype) and sun exposure habits were collected. We determined the somatic mutational burden, mutational signatures, clonal selection and frequency of driver mutations in all samples. Results: Our results reveal an exponential accumulation of UV-related somatic mutations with age, matching skin cancer incidence. The increase of mutational burden is in turn modified by an individual's skin phototype. Somatic mutations preferentially accumulated in cutaneous squamous cell carcinoma cancer genes and clonally expanded with age, with distinct mutational processes underpinning different age groups. Our results suggest a loss of fidelity in transcription-coupled repair later in life. Conclusion: Our findings reveal that ageing is not only associated with an exponential increase in the number of somatic mutations accumulated in normal epidermis, but also with selection and expansion of cancer-associated mutations. Aged, sun-exposed normal skin is thus an extended mosaic of multiple clones with driver mutations, poised for the acquisition of transforming events.

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The effect of long-term ultra-endurance exercise and SOD2 genotype on telomere shortening with age

Hernando

Gil-Barrachina

Tomás-Bort

et al. 2020

Journal of Applied Physiology

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Telomere shortening, a well-known biomarker of aging, is a complex process influenced by several intrinsic and lifestyle factors. Although habitual exercise may promote telomere length maintenance, extreme endurance exercise has been also associated with increased oxidative stress - presumed to be the major cause of telomere shortening. Therefore, the pace of telomere shortening with age may also depend on antioxidant system efficiency, which is in part genetically determined. In this study, we aimed at evaluating the impact of ultra-endurance exercise and oxidative stress susceptibility (determined by the rs4880 polymorphism in the superoxide dismutase 2 (SOD2) gene) on telomere length. Genomic DNA was obtained from 53 sedentary individuals (34 females, 19-67 years) and 96 ultra-trail runners (31 females, 23-58 years). Indeed, blood samples before and after finishing a 107km-trail race were collected from 32 runners to measure c-reactive protein (CRP) levels and thus analyse if acute inflammation response is modulated by the SOD2 rs4880 polymorphism. Our results revealed that telomere length was better preserved in ultra-trail runners compared to controls, especially in elderly runners who have been regularly training for many years. Carrying the SOD2 rs4880*A allele was significantly associated with having shorter telomeres, as well as with having increased CRP levels after the ultra-trail race. In conclusion, habitual ultra-endurance exercise had a beneficial effect on telomere length maintenance, especially at older ages. This study also suggested that the SOD2 rs4880 polymorphism may also impact on acute and chronic oxidative-related damage (inflammatory response and telomere length) after an ultra-trail race

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Non-classical Notch signaling by MDA-MB-231 breast cancer cell-derived small extracellular vesicles promotes malignancy in poorly invasive MCF-7 cells

et al. 2022

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UV-Induced Somatic Mutations Driving Clonal Evolution in Healthy Skin, Nevus, and Cutaneous Melanoma

Loras

Gil-Barrachina

Marqués-Torrejón

et al. 2022

Life

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Introduction: Due to its aggressiveness, cutaneous melanoma (CM) is responsible for most skin cancer-related deaths worldwide. The origin of CM is closely linked to the appearance of UV-induced somatic mutations in melanocytes present in normal skin or in CM precursor lesions (nevi or dysplastic nevi). In recent years, new NGS studies performed on CM tissue have increased the understanding of the genetic somatic changes underlying melanomagenesis and CM tumor progression. Methods: We reviewed the literature using all important scientific databases. All articles related to genomic mutations in CM as well as normal skin and nevi were included, in particular those related to somatic mutations produced by UV radiation. Conclusions: CM development and progression are strongly associated with exposure to UV radiation, although each melanoma subtype has different characteristic genetic alterations and evolutionary trajectories. While BRAF and NRAS mutations are common in the early stages of tumor development for most CM subtypes, changes in CDKN2A, TP53 and PTEN, together with TERT promoter mutations, are especially common in advanced stages. Additionally, large genome duplications, loss of heterozygosity, and copy number variations are hallmarks of metastatic disease. Finally, the mutations driving melanoma targeted-therapy drug resistance are also summarized. The complete sequential stages of clonal evolution leading to CM onset from normal skin or nevi are still unknown, so further studies are needed in this field to shed light on the molecular pathways involved in CM malignant transformation and in melanoma acquired drug resistance.

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The Effect of Photoaging on the Accumulation of Somatic Mutations in Cancer-Free Human Skin

et al. 2020

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