Shila Barati scite author profile

Angiotensin-converting enzyme 2 (ACE2) has been recognized as the entry receptor of the novel severe acute respiratory syndrome coronavirus 2 (SARS-Cov-2). Structural and sequence variants in ACE2 gene may affect its expression in different tissues and determine a differential response to SARS-Cov-2 infection and the COVID-19-related phenotype. The present study investigated the genetic variability of ACE2 in terms of single nucleotide variants (SNVs), copy number variations (CNVs), and expression quantitative loci (eQTLs) in a cohort of 268 individuals representative of the general Italian population. The analysis identified five SNVs (rs35803318, rs41303171, rs774469453, rs773676270, and rs2285666) in the Italian cohort. Of them, rs35803318 and rs2285666 displayed a significant different frequency distribution in the Italian population with respect to worldwide population. The eQTLs analysis located in and targeting ACE2 revealed a high distribution of eQTL variants in different brain tissues, suggesting a possible link between ACE2 genetic variability and the neurological complications in patients with COVID-19. Further research is needed to clarify the possible relationship between ACE2 expression and the susceptibility to neurological complications in patients with COVID-19. In fact, patients at higher risk of neurological involvement may need different monitoring and treatment strategies in order to prevent severe, permanent brain injury.

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Investigation of Genetic Variations of IL6 and IL6R as Potential Prognostic and Pharmacogenetics Biomarkers: Implications for COVID-19 and Neuroinflammatory Disorders

Strafella

Caputo

Termine

et al. 2020

Life

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In the present study, we investigated the distribution of genetic variations in IL6 and IL6R genes, which may be employed as prognostic and pharmacogenetic biomarkers for COVID-19 and neurodegenerative diseases. The study was performed on 271 samples representative of the Italian general population and identified seven variants (rs140764737, rs142164099, rs2069849, rs142759801, rs190436077, rs148171375, rs13306435) in IL6 and five variants (rs2228144, rs2229237, rs2228145, rs28730735, rs143810642) within IL6R, respectively. These variants have been predicted to affect the expression and binding ability of IL6 and IL6R. Ingenuity Pathway Analysis (IPA) showed that IL6 and IL6R appeared to be implicated in several pathogenetic mechanisms associated with COVID-19 severity and mortality as well as with neurodegenerative diseases mediated by neuroinflammation. Thus, the availability of IL6-IL6R-related biomarkers for COVID-19 may be helpful to counteract harmful complications and prevent multiorgan failure. At the same time, IL6-IL6R-related biomarkers could also be useful for assessing the susceptibility and progression of neuroinflammatory disorders and undertake the most suitable treatment strategies to improve patients’ prognosis and quality of life. In conclusion, this study showed how IL6 pleiotropic activity could be exploited to meet different clinical needs and realize personalized medicine protocols for chronic, age-related and modern public health emergencies.

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Analysis of ACE2 Genetic Variability Among Populations Highlights A Possible Link With COVID19-Related Neurological Complications

Strafella

Caputo

Termine

et al. 2020

Preprint

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The Angiotensin-converting enzyme 2 (ACE2) has been recently recognized as the entry receptor of the novel pathogenic Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-Cov-2). The presence of structural and sequence variants in ACE2 gene may affect its expression in different tissues and determine a differential response to SARS-Cov-2 infection and COVID19-related phenotype. The present study investigated the genetic variability of ACE2 in terms of Single Nucleotide Variants (SNVs), Copy Number Variations (CNVs) and expression Quantitative Loci (eQTLs) in a cohort of 268 individuals representative of the Italian general population. The analysis identified 5 SNVs (rs35803318, rs41303171, rs774469453, rs773676270, rs2285666) which displayed a significantly different frequency distribution in the Italian cohort compared to the worldwide populations. The analysis of eQTLs located in and targeting ACE2, revealed a high distribution of eQTL variants in different brain tissues, suggesting a possible link between the genetic variability of ACE2 and the neurological complications in patients with COVID19. Further research is needed to clarify the possible relationship between ACE2 expression and the susceptibility to neurological complications in patients with COVID19. In fact, patients at higher risk of neurological involvement may need different monitoring and treatment strategies in order to prevent severe, permanent brain injury.

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Two rare PROX1 variants in patients with lymphedema

Ricci

Amato

Barati³

et al. 2020

Molec Gen & Gen Med

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Possible Role of the RORC Gene in Primary and Secondary Lymphedema: Review of the Literature and Genetic Study of Two Rare Causative Variants

Michelini

Ricci

Serrani

et al. 2021

Lymphatic Research and Biology

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NOTCH1: Review of its role in lymphatic development and study of seven families with rare pathogenic variants

Michelini

Ricci

Serrani

et al. 2020

Molec Gen & Gen Med

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Investigation of genetic variations of IL6 and IL6R as potential prognostic and pharmacogenetics biomarkers: implications for COVID19 and neuroinflammatory disorders.

Strafella

Caputo

Termine

et al. 2020

Preprint

View full text Add to dashboard Cite

In the present study, we investigated the distribution of genetic variations in IL6 and IL6R genes, which may be employed as prognostic and pharmacogenetic biomarkers for COVID-19 and neurodegenerative diseases. The study was performed on 271 samples representative of the Italian general population and identified seven variants (rs140764737, rs142164099, rs2069849, rs142759801, rs190436077, rs148171375, rs13306435) in IL6 and five variants (rs2228144, rs2229237, rs2228145, rs28730735, rs143810642) within IL6R, respectively. These variants have been predicted to affect the expression and binding ability of IL6 and IL6R. The Ingenuity Pathway Analysis (IPA) showed that IL6 and IL6R appeared to be implicated in several pathogenetic mechanisms associated with COVID19 severity and mortality as well as with neurodegenerative diseases mediated by neuroinflammation. Thus, the availability of IL6-IL6R-related biomarkers for COVID19 disease may be helpful to counteract harmful complications and prevent multi-organ failure. At the same time, IL6-IL6R-related biomarkers could also be useful for assessing the susceptibility and progression of neuroinflammatory disorders and undertake the most suitable treatment strategies to improve patients’ prognosis and quality of life. In conclusion, this study showed how IL6 pleiotropic activity could be exploited to meet different clinical needs and realize precision medicine protocols for chronic, age-related and modern public health emergencies.

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Longitudinal Structure–Function Evaluation in a Patient with CDHR1-Associated Retinal Dystrophy: Progressive Visual Function Loss with Retinal Remodeling

Cusumano

Falsini

D’Apolito³

et al. 2023

Diagnostics

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Background: Retinal dystrophies related to damaging variants in the cadherin-related family member 1 (CDHR1) gene are rare and phenotypically heterogeneous. Here, we report a longitudinal (three-year) structure–function evaluation of a patient with a CDHR1-related retinal dystrophy. Methods: A 14-year-old girl was evaluated between 2019 and 2022. An ophthalmological assessment, including color vision, perimetry, electroretinography, and multimodal imaging of the retina, was performed periodically every six months. Next-generation sequencing disclosed two likely pathogenic/pathogenic variants in the CDHR1 gene, in compound heterozygosity, confirmed by segregation analysis. Results: At first examination, the patient showed a cone–rod pattern retinal dystrophy. Over follow-up, there was a decline of visual acuity and perimetric sensitivity (by ≥0.3 and 0.6 log units, respectively). Visual loss was associated with a progressive increase in inner retinal thickness (by 30%). Outer retina showed no detectable changes over the follow-up. Conclusions: The results indicate that, in this patient with a CDHR1-related cone–rod dystrophy, the progression to severe visual loss was paralleled by a progressive inner retinal thickening, likely a reflection of remodeling. Inner retinal changes over time may be functionally relevant in view of the therapeutic attempts based on gene therapy or stem cells to mitigate photoreceptor loss.

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Shila Barati

Analysis of ACE2 Genetic Variability among Populations Highlights a Possible Link with COVID-19-Related Neurological Complications

Investigation of Genetic Variations of IL6 and IL6R as Potential Prognostic and Pharmacogenetics Biomarkers: Implications for COVID-19 and Neuroinflammatory Disorders

Analysis of ACE2 Genetic Variability Among Populations Highlights A Possible Link With COVID19-Related Neurological Complications

Two rare PROX1 variants in patients with lymphedema

Possible Role of the RORC Gene in Primary and Secondary Lymphedema: Review of the Literature and Genetic Study of Two Rare Causative Variants

NOTCH1: Review of its role in lymphatic development and study of seven families with rare pathogenic variants

Investigation of genetic variations of IL6 and IL6R as potential prognostic and pharmacogenetics biomarkers: implications for COVID19 and neuroinflammatory disorders.

Longitudinal Structure–Function Evaluation in a Patient with CDHR1-Associated Retinal Dystrophy: Progressive Visual Function Loss with Retinal Remodeling

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