Frontiers in Immunology (Apr 2022)

A Protective HLA Extended Haplotype Outweighs the Major COVID-19 Risk Factor Inherited From Neanderthals in the Sardinian Population

  • Stefano Mocci,
  • Roberto Littera,
  • Roberto Littera,
  • Stefania Tranquilli,
  • Aldesia Provenzano,
  • Alessia Mascia,
  • Federica Cannas,
  • Sara Lai,
  • Erika Giuressi,
  • Luchino Chessa,
  • Luchino Chessa,
  • Luchino Chessa,
  • Goffredo Angioni,
  • Marcello Campagna,
  • Davide Firinu,
  • Maria Del Zompo,
  • Giorgio La Nasa,
  • Andrea Perra,
  • Andrea Perra,
  • Sabrina Giglio,
  • Sabrina Giglio,
  • Sabrina Giglio

DOI
https://doi.org/10.3389/fimmu.2022.891147
Journal volume & issue
Vol. 13

Abstract

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Sardinia has one of the lowest incidences of hospitalization and related mortality in Europe and yet a very high frequency of the Neanderthal risk locus variant on chromosome 3 (rs35044562), considered to be a major risk factor for a severe SARS-CoV-2 disease course. We evaluated 358 SARS-CoV-2 patients and 314 healthy Sardinian controls. One hundred and twenty patients were asymptomatic, 90 were pauci-symptomatic, 108 presented a moderate disease course and 40 were severely ill. All patients were analyzed for the Neanderthal-derived genetic variants reported as being protective (rs1156361) or causative (rs35044562) for severe illness. The β°39 C>T Thalassemia variant (rs11549407), HLA haplotypes, KIR genes, KIRs and their HLA class I ligand combinations were also investigated. Our findings revealed an increased risk for severe disease in Sardinian patients carrying the rs35044562 high risk variant [OR 5.32 (95% CI 2.53 - 12.01), p = 0.000]. Conversely, the protective effect of the HLA-A*02:01, B*18:01, DRB*03:01 three-loci extended haplotype in the Sardinian population was shown to efficiently contrast the high risk of a severe and devastating outcome of the infection predicted for carriers of the Neanderthal locus [OR 15.47 (95% CI 5.8 – 41.0), p < 0.0001]. This result suggests that the balance between risk and protective immunogenetic factors plays an important role in the evolution of COVID-19. A better understanding of these mechanisms may well turn out to be the biggest advantage in the race for the development of more efficient drugs and vaccines.

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