No crossreactivity of anti-SARS-CoV-2 spike protein antibodies with Syncytin-1

Abstract

SARS-CoV-2, as well as the measures that were taken around the world to limit its spread, has killed thousands of people and ruined industries and economies. Vigorous vaccination campaigns are being pursued in the hope of ending the pandemic. However, many people are afraid of vaccination side effects, and one of these suspected side effects is female infertility due to vaccineinduced autoreactive antibodies against Syncytin-1 [1]. The spike protein of SARS-CoV-2, which is the main target of all vaccination schemes, shares homology to Syncytin-1. Syncytin-1 enables the fusion of trophoblasts to syncytiotrophoblasts, cells that are essential for placenta formation, an early step in the establishment of a pregnancy [2, 3]. This concern was widely refuted by major media such as the New York Times [4] and in the scientific literature [5]. The most commonly used argument of critics is that the emergence of crossreactive antibodies would be unlikely due to the limited homology between the SARS-CoV-2 spike protein and Syncytin-1. However, this argument is not convincing, as the epitope recognized by an antibody can be as small as four amino acids [6]. To provide a scientific basis for a rational discussion about this question, we investigated the crossreactivity of anti-spike protein antibodies with Syncytin-1. Based on an EMBOSS water pairwise analysis, the overall amino acid identity and similarity between Syncytin-1 and the SARS-CoV-2 spike protein are only 8.8% and 15.8%, respectively. Moreover, SARS-CoV-2 spike is much larger than Syncytin-1. If the comparison is focused on the region (amino acid 576–1196) that corresponds to smaller Syncytin-1 (538 amino acids), the amino acid identity and similarity increase to 16.8% and 30.2%, respectively. Although these numbers are low, they are deceiving because there are clusters with high degrees of homology (Supplementary Fig. 1A). Furthermore, it needs to be considered that the tertiary structure is more relevant than the primary sequence homology. Indeed, the two domains for which crystallography data are available show a highly similar 3D structure (Supplementary Fig. 1D and Supplementary Video 1). Given that the epitope that an antibody recognizes is typically 5–8 amino acids but can be as small as 4 [6], it is quite possible that antibodies against the SARS-CoV-2 spike protein crossreact with highly homologous clusters in Syncytin-1. Monoclonal antibodies against the SARS-CoV-2 spike protein have been proposed as a way to treat COVID-19 patients and are currently being evaluated in clinical trials [7]. To reliably assess the presence of anti-Syncytin-1 reactivity, we generated a stable HEK293 cell line expressing Syncytin-1 on the cell surface (Supplementary Fig. 2). In an in-cell ELISA using HEK293 cells expressing Syncytin-1 and control HEK293 cells, none of the 10 monoclonal antibodies tested crossreacted with Syncytin-1 (Fig. 1A). As a control, the specificity of the monoclonal antibodies against spike was verified by testing their reactivity to a recombinant SARSCoV-2 spike receptor-binding domain (RBD) (Fig. 1A). To determine whether SARS-CoV-2 vaccination leads to the production of anti-Syncytin-1 antibodies, we analyzed plasma from 66 individuals collected at 3 different time points: prevaccination, 21 days after the first dose, and 2 months after the second dose; binding between the spike protein RBD and plasma components was verified as a positive control (Fig. 1B). We did not detect any crossreactivity with Syncytin-1 in the plasma of vaccinated individuals, in either the preor postvaccination samples, despite an increase in anti-spike protein titers (Fig. 1B). To determine whether SARS-CoV-2 infection induces antibodies against Syncytin-1, we tested the plasma of 37 COVID-19 patients collected at 28 days post recovery, and no anti-Syncytin-1 antibodies were detected in the plasma of these recovalescent patients (Fig. 1C). These results lead us to conclude that there is no or at least no major danger of female infertility due to the induction of Syncytin-1 crossreacting antibodies. Our data are in line with findings from accidental pregnancies in COVID-19 vaccine trials in the United Kingdom. Their analysis demonstrated (1) no difference in the rate of accidental pregnancies between vaccinated and unvaccinated women and (2) no increased miscarriage rate [5]. Another recent study could not find evidence for an increased frequency of preterm delivery or fetal loss in women vaccinated during their pregnancy, suggesting that COVID-19 vaccines do not result in pregnancy disruption [8]. To our knowledge, this is the first study that experimentally addresses the question of whether vaccination against the SARSCoV-2 spike protein induces antibodies against Syncytin-1. We did not detect crossreactivity between anti-SARS-CoV-2 spike protein antibodies and Syncytin-1.