key: cord-0931056-90l3knvm
authors: Bovijn, Jonas; Lindgren, Cecilia M; Holmes, Michael V
title: Genetic IL-6R variants and therapeutic inhibition of IL-6 receptor signalling in COVID-19 – Authors' reply
date: 2020-12-15
journal: Lancet Rheumatol
DOI: 10.1016/s2665-9913(20)30415-x
sha: 91716c40def254792b5b8083a18baf9fdaf98638
doc_id: 931056
cord_uid: 90l3knvm

nan

Authors' reply

We thank Christoph Garbers and Stefan Rose-John for their interest in our Correspondence 1 on genetic variants in the gene encoding the interleukin (IL)-6 receptor (IL6R) mimicking pharmacological IL-6 receptor inhi bition. Garbers and Rose-John pro pose an interpretation of our genetic findings that posits that the genetic instrument acts as a buffer for IL-6. We see this as a complementary interpretation to that in which the genetic instrument mimics therapeutic inhibition of the IL-6 receptor. The precise mechanism by which a drug modulates a therapeutic target, and by which a genetic variant influences the same target, might not be identical. However, this does not necessarily obviate the use of such genetic instruments to make deductions about the probable efficacy of modifying a therapeutic target, especially if a drug and genetic variant exhibit similar associations with targetassociated molecular pathways. The concordant effects of IL6R genetic variants and pharmacological IL-6 receptor inhibition on multiple biomarkers (eg, fibrinogen, C-reactive protein, IL-6, and soluble IL-6R 2 ) and disease (eg, rheumatoid arthritis) argue for phenotypic consistency between the genetic instrument and therapeutic effect. Furthermore, the rs2228145 missense variant has been shown to impede membrane-bound IL-6 recep tor signalling, 3 and the effect on disease outcomes (including potentially COVID-19) might therefore be mediated via this mechanism (in addition to, or in lieu of, the IL-6 buffering mechanism proposed by Garbers and Rose-John).

Mendelian randomisation studies of drug targets are subject to various caveats (including the mechanistic considerations highlighted in the foregoing text), and results from such studies should not be interpreted as representing definitive evidence of drug efficacy or safety. Rather, such genetic investigations provide evidence for (or against) therapeutic hypotheses, in which the acid test ultimately remains evidence of efficacy derived from well-designed randomised, controlled trials. As we noted in our original Correspondence, 1 our results provide evidence for the potential efficacy of IL-6 receptor inhibition (and possibly the role of IL-6 signalling more broadly) in COVID-19, which should be further evaluated in adequately powered randomised, controlled trials.

A further dimension must be considered in the context of drugtarget Mendelian randomisation applied to an emerging infectious disease such as COVID-19. In contrast to coronary heart disease, for example, where data from large-scale genomewide association study consortia are already established, the same is not the case for COVID-19. Effect estimates might therefore not be stable to the addition of newer data that become available. To this end, following our original publication, 1 the COVID-19 Host Genetics Initiative released an updated dataset including a larger number of cases and controls. We updated our analyses using these newly released data and found that our results remained largely unchanged (appendix p 1). Notably, we found that the association of the IL-6 receptor genetic instrument with the most severe COVID-19 phenotype (COVID-19 requiring respiratory support or leading to death) was strengthened with an increased number of cases from 536 to 4336 (OR 0·94 scaled to a 0·1 SD lower C-reactive protein, [95% CI, 0·90-0·98], p=0·005, by use of the updated data, vs 0·98, [95% CI, 0·88-1·10], p=0·78 by use of the original data). Findings from randomised, controlled trials of tocilizumab have shown conflicting results, 4 which might suggest that IL-6 receptor inhibition does not provide therapeutic benefit in all patients with COVID-19. Ongoing randomised, controlled trials, such as the RECOVERY trial, 5 will be crucial in providing further evidence.

Genetic variants mimicking therapeutic inhibition of IL-6 receptor signaling and risk of COVID-19

Interleukin-6 signaling effects on ischemic stroke and other cardiovascular outcomes

Functional IL6R 358Ala allele impairs classical IL-6 receptor signaling and influences risk of diverse inflammatory diseases

COVACTA trial raises questions about tocilizumab's benefit in COVID-19

Time to reassess tocilizumab's role in COVID-19 pneumonia

See Online for appendix Lancet Rheumatol