Litcius/Paper detail

Endogenous Retroviral Envelope Syncytin Induces HIV-1 Spreading and Establishes HIV Reservoirs in Placenta

Yuyang Tang, Beverly Woodward, Lorena Pastor, Alvin M. George, Oksana Petrechko, Franklin J. Nouvet, David W. Haas, Guochun Jiang, James E. K. Hildreth

2020Cell Reports41 citationsDOIOpen Access PDF

Abstract

Radical cure of HIV-1 (HIV) is hampered by the establishment of HIV reservoirs and persistent infection in deep tissues despite suppressive antiretroviral therapy (ART). Here, we show that among HIV-positive women receiving suppressive ART, cells from placental tissues including trophoblasts contain HIV RNA and DNA. These viruses can be reactivated by latency reversal agents. We find that syncytin, the envelope glycoprotein of human endogenous retrovirus family W1 expressed on placental trophoblasts, triggers cell fusion with HIV-infected T cells. This results in cell-to-cell spread of HIV to placental trophoblasts. Such cell-to-cell spread of HIV is less sensitive to ART than free virus. Replication in syncytin-expressing cells can also produce syncytin-pseudotyped HIV, further expanding its ability to infect non-CD4 cells. These previously unrecognized mechanisms of HIV entry enable the virus to bypass receptor restriction to infect host barrier cells, thereby facilitating viral transmission and persistent infection in deep tissues.

Topics & Concepts

Endogenous retrovirusVirologyBiologyRetrovirusViral envelopeEndogenyProvirusVirusPlacentaViral entryTrophoblastLentivirusCellViral replicationImmunologyGeneGeneticsViral diseaseGenomePregnancyFetusEndocrinologyHIV Research and TreatmentCytomegalovirus and herpesvirus researchHIV-related health complications and treatments