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Genetic Insights on Asymptomatic and Long COVID


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Genetic studies reveal factors influencing asymptomatic and Long COVID.
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In a Nature report, the genetics of asymptomatic COVID and Long COVID are explored. Dr. Eric Topol discusses the importance of genetic probes in understanding the clinical spectrum from asymptomatic cases to chronic conditions.

Asymptomatic COVID Genomics

  • Genome-wide association study (GWAS) identifies HLA-B*15:01 as associated with lack of symptoms.
  • T-cell studies suggest cross-reactivity from prior coronavirus exposure.
  • Findings limited to European ancestry, implications for vaccine development.

Long COVID Genomics

  • FOXP4 gene locus on chromosome 6 linked to Long COVID.
  • FOXP4 variant associated with increased expression in lung and hypothalamus.
  • Mendelian randomization analysis supports FOXP4 association with Long COVID.

Context and Future

  • Progress in understanding COVID heterogeneity.
  • FOXP4 discovery needs further validation.
  • Potential for better treatments and vaccines based on genetic insights.
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"The odds ratio for asymptomatic to symptomatic was ~2.5-fold for the HLA-B*15:01 allele." "The risk of the FOXP4 locus variant for Long COVID was 1.6-fold." "73 variants might be associated with Long COVID, with overlaps in neurologic and cardio-metabolic conditions."
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"The protective HLA-B*15:01 allele finding is particularly striking." "The FOXP4 variant discovery shows consistency for a 60% increased risk of Long COVID." "It is exciting to unravel why our response to this virus is so variable."

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by Eric Topol om www.medscape.com 07-19-2023

https://www.medscape.com/viewarticle/994575
From Asymptomatic COVID to Long COVID: Genetic Underpinnings

Diepere vragen

What are the implications of genetic findings on COVID for future vaccine development?

The genetic findings on COVID, particularly the identification of specific alleles like HLA-B*15:01 associated with protection from symptomatic COVID, have significant implications for future vaccine development. Understanding the genetic underpinnings of why some individuals remain asymptomatic can guide the development of more effective vaccines. By targeting specific genetic variants that confer protection, vaccines can be tailored to enhance immune responses in individuals who may be genetically predisposed to asymptomatic infection. This personalized approach to vaccine development based on genetic insights can potentially lead to higher efficacy rates and better outcomes in controlling the spread of the virus.

How can the limitations of genetic studies on COVID, such as ancestry bias, be addressed?

Addressing the limitations of ancestry bias in genetic studies on COVID is crucial to ensure the findings are applicable to diverse populations. One way to mitigate this bias is by increasing the representation of diverse ancestries in study cohorts. By including individuals from different ethnic backgrounds, researchers can identify genetic variants that may be specific to certain populations. Collaborating with international research groups and leveraging large-scale genomic databases that encompass diverse populations can help overcome ancestry bias. Additionally, conducting replication studies in populations with varied ancestries can validate the genetic associations across different ethnic groups, ensuring the robustness and generalizability of the findings.

How might understanding the genetic basis of Long COVID impact the treatment of other chronic conditions?

Understanding the genetic basis of Long COVID can have a profound impact on the treatment of other chronic conditions by providing insights into shared genetic pathways and potential therapeutic targets. The identification of genetic variants like the FOXP4 gene locus associated with Long COVID not only sheds light on the underlying mechanisms of this condition but also reveals connections to other health outcomes. By elucidating the genetic factors that contribute to the development of Long COVID, researchers can uncover common pathways involved in chronic conditions such as neurologic disorders or cardio-metabolic diseases. Furthermore, the genetic links between Long COVID and conditions like ME/CFS suggest overlapping biological mechanisms that could inform the development of targeted therapies. By understanding how specific genetic variants predispose individuals to Long COVID, researchers can explore interventions that target these pathways, potentially leading to novel treatment strategies for a range of chronic conditions. Ultimately, unraveling the genetic basis of Long COVID may pave the way for precision medicine approaches that address not only this condition but also other related chronic illnesses.
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