Varied patterns of decay of intact human immunodeficiency virus type 1 proviruses over 2 decades of antiretroviral therapy
RT Gandhi, RJ Bosch, H Mar, GM Laird… - The Journal of …, 2023 - academic.oup.com
RT Gandhi, RJ Bosch, H Mar, GM Laird, EK Halvas, L Hovind, AC Collier, SA Riddler…
The Journal of Infectious Diseases, 2023•academic.oup.comFourteen people with human immunodeficiency virus type 1 had longitudinal measurements
of intact, defective, and total proviral DNA over the course of two decades of antiretroviral
therapy. Three patterns of intact proviral DNA decay were revealed:(1) biphasic decline with
markedly slower second-phase decline,(2) initial decline that transitions to a zero-slope
plateau, and (3) initial decline followed by later increases in intact proviral DNA. Defective
proviral DNA levels were essentially stable. Mechanisms of slowing or reversal of second …
of intact, defective, and total proviral DNA over the course of two decades of antiretroviral
therapy. Three patterns of intact proviral DNA decay were revealed:(1) biphasic decline with
markedly slower second-phase decline,(2) initial decline that transitions to a zero-slope
plateau, and (3) initial decline followed by later increases in intact proviral DNA. Defective
proviral DNA levels were essentially stable. Mechanisms of slowing or reversal of second …
Abstract
Fourteen people with human immunodeficiency virus type 1 had longitudinal measurements of intact, defective, and total proviral DNA over the course of two decades of antiretroviral therapy. Three patterns of intact proviral DNA decay were revealed: (1) biphasic decline with markedly slower second-phase decline, (2) initial decline that transitions to a zero-slope plateau, and (3) initial decline followed by later increases in intact proviral DNA. Defective proviral DNA levels were essentially stable. Mechanisms of slowing or reversal of second-phase decay of intact proviral DNA may include the inability to clear cells with intact but transcriptionally silent proviruses and clonal expansion of cells with intact proviruses.
Oxford University Press