ABSTRACT
BackgroundAlthough France was one of the most affected European countries by the COVID-19 pandemic in 2020, the dynamics of SARS-CoV-2 transmissions within France, Europe and worldwide remain only partially characterized during the first year of the pandemic. MethodsHere, we analyzed GISAID deposited sequences from January to December 2020 (n = 638,706 sequences). To tackle the huge number of sequences without the bias of analyzing a single sequence subset, we produced 100 independent and randomly selected sequence datasets and related phylogenetic trees for different geographic scales (worldwide, European countries and French administrative regions) and time periods (first and second half of 2020). We applied a maximum likelihood discrete trait phylogeographic method to date transmission events and to estimate the geographic spread of SARS-CoV-2 to, from and within France, Europe and worldwide. ResultsThe results unraveled two different patterns of inter- and intra-territory transmission events between the first and second half of 2020. Throughout the year, Europe was systematically associated with most of the intercontinental transmissions, for which France has played a pivotal role. SARS-CoV-2 transmissions with France were concentrated with North America and Europe (mainly Italy, Spain, United Kingdom, Belgium and Germany) during the first wave, and were limited to neighboring countries without strong intercontinental transmission during the second one. Regarding French administrative regions, the Paris area was the main source of transmissions during the first wave. But, for the second epidemic wave, it equally contributed to virus spread with Lyon and Marseille area, the two other most densely populated cities in France. ConclusionBy enabling the inclusion of tens of thousands of viral sequences, this original phylogenetic strategy enabled us to robustly depict SARS-CoV-2 transmissions through France, Europe and worldwide in 2020.
ABSTRACT
ObjectivesTo assess the humoral and cellular responses against SARS-CoV-2 Delta variant after BNT162b2 vaccination in PLWHIV. DesignMulticenter cohort study of PLWHIV, with a CD4 cell count <500/mm3 and a viral load <50 copies/ml on stable antiretroviral therapy for at least 3 months. MethodsAnti-SARS-CoV-2 Receptor Binding Domain IgG antibodies (anti-RBD IgG) were quantified and their neutralization capacity was evaluated using an ELISA (GenScript) and a virus neutralization test (VNT), against historical strain, Beta and Delta variants before vaccination (day 0) and one month after a complete vaccination schedule (M1). Results97 patients were enrolled in the study: 85 received 2 vaccine doses (11 previous COVID-19 and 1 premature exit). The seroconversion rate in anti-RBD IgG was 97% CI95[90%; 100%] at M1. Median (IQR) anti-RBD IgG titer was 0.97 (0.97-5.3) BAU/ml at D0 and 1219 (602-1929) at M1. Neutralizing antibodies (NAbs) capacity improved between D0 (15% CI95[8%; 23%]) and M1 (94% CI95[87%; 98%]) with the GenScript assay (p<0.0001). At M1, NAbs against historical strain, Beta and Delta variants were present in 82%, 77% and 84% patients respectively. The seroconversion rate and median anti-RBD IgG were 91% and 852 BAU/ml in patients with CD4<250/mm3 (n=13) and 98% and 1270 BAU/ml in patients with CD4>250/mm3 (n=64) (p=0.3994). 73% of patients with CD4<250 had NAbs and 97% of those with CD4>250 (p=0.0130). The NAbs against Beta variant was elicited in 50% in CD4<250 and in 81% in CD4>250 (p=0.0292). No change in CD4+ or CD8+ T cells count was observed while a decrease of CD19+ B cells count was observed (208 {+/-}124 cells/mm3 at D0 vs 188 {+/-}112 cells/mm3 at M1, p<0.01). No notable adverse effects or COVID-19 were reported. ConclusionsThese results show a high seroconversion rate with a Delta neutralization in PLWHIV patients after a complete BNT162b2 vaccination schedule.
ABSTRACT
The 501Y.V2 and the 501Y.V1 SARS-CoV-2 variants emerged and spread rapidly into the world. We analysed the RT-PCR cycle threshold values of 643 nasopharyngeal samples of COVID-19 patients at diagnosis and found that the 501Y.V2 variant presented an intermediate viral load between the 501Y.V1 and the historical variants.
