Human cytomegalovirus strain diversity and dynamics reveal the donor lung as a major contributor after transplantation

Abstract

AbstractMixed human cytomegalovirus (HCMV) strain infections are frequent in lung transplant recipients (LTRs). To date, the influence of the donor (D) and recipient (R) HCMV-serostatus on intra-host HCMV strain composition and replication dynamics after transplantation is only poorly understood.Here, we investigated ten pre-transplant lungs from HCMV-seropositive donors, and 163 sequential HCMV-DNA positive plasma and bronchoalveolar lavage samples from 50 LTRs with multiviremic episodes post-transplantation. The study cohort included D+R+ (38%), D+R− (36%), and D−R+ (26%) patients. All samples were subjected to quantitative genotyping by short amplicon deep sequencing, and 24 thereof were additionally PacBio long-read sequenced for genotype linkages.We find that D+R+ patients show a significantly elevated intra-host strain diversity compared to D+R− and D−R+ patients (P=0.0089). Both D+ patient groups display significantly higher replication dynamics than D− patients (P=0.0061). Five out of ten pre-transplant donor lungs were HCMV-DNA positive, whereof in three multiple HCMV strains were detected, indicating that multi-strain transmission via lung transplantation is likely. Using long reads, we show that intra-host haplotypes can share distinctly linked genotypes, which limits overall intra-host diversity in mixed infections. Together, our findings demonstrate donor-derived strains as a main source for increased HCMV strain diversity and dynamics post-transplantation, while a relatively limited number of intra-host strains may facilitate rapid adaptation to changing environments in the host. These results foster targeted strategies to mitigate the potential transmission of the donor strain reservoir with the allograft.