Role of Maternal Autologous Neutralizing Antibody in Selective Perinatal Transmission of Human Immunodeficiency Virus Type 1 Escape Variants

Perinatal human immunodeficiency virus type 1 (HIV-1) transmission is characterized by acquisition of a homogeneous viral quasispecies, yet the selective factors responsible for this genetic bottleneck are unclear. We examined the role of maternal autologous neutralizing antibody (aNAB) in selective transmission of HIV-1 escape variants to infants. Maternal sera from 38 infected mothers at the time of delivery were assayed for autologous neutralizing antibody activity against maternal time-of-delivery HIV-1 isolates in vitro. Maternal sera were also tested for cross-neutralization of infected-infant-first-positive-time-point viral isolates. Heteroduplex and DNA sequence analyses were then performed to identify the initial infecting virus as a neutralization-sensitive or escape HIV-1 variant. In utero transmitters (n = 14) were significantly less likely to have aNAB to their own HIV-1 strains at delivery than nontransmitting mothers (n = 17, 14.3% versus 76.5%, P = 0.003). Cross-neutralization assays of infected-infant-first-positive-time-point HIV-1 isolates indicated that while 14/21 HIV-1-infected infant first positive time point isolates were resistant to their own mother's aNAB, no infant isolate was inherently resistant to antibody neutralization by all sera tested. Furthermore, both heteroduplex (n = 21) and phylogenetic (n = 9) analyses showed that selective perinatal transmission and/or outgrowth of maternal autologous neutralization escape HIV-1 variants occurs in utero and intrapartum. These data indicate that maternal autologous neutralizing antibody can exert powerful protective and selective effects in perinatal HIV-1 transmission and therefore has important implications for vaccine development

Autologous Neutralizing Antibody to Human Immunodeficiency Virus-1 and Replication-Competent Virus Recovered from CD4+ T-Cell Reservoirs in Pediatric HIV-1–Infected Patients on HAART

A patient's ability to produce autologous neutralizing antibody (ANAB) to current and past HIV isolates correlates with reduced disease progression and protects against maternal–fetal transmission. Little is known about the effects of prolonged viral suppression on the ANAB response in pediatric HIV-infected patients receiving HAART because the virus is hard to isolate, except by special methods. We therefore assessed ANAB to pre-HAART PBMC virus isolates and post-HAART replication-competent virus (RCV) isolates recovered from latent CD4+ T-cell reservoirs in perinatally HIV-infected children by using a PBMC-based assay and 90% neutralization titers. We studied two infants and three children before and after HAART. At the time of RCV isolation (n = 4), plasma HIV RNA was <50 copies/ml. At baseline, four of five children had detectable ANAB titers to concurrent pre-HAART virus isolates. Although ANAB was detected in all subjects at several time points despite prolonged HAART and undetectable viremia, the response was variable. ANAB titers to concurrent post-HAART RCV and earlier pre-HAART plasma were present in 3 children suggesting prior exposure to this virus. Post-HAART RCV isolates had reduced replication kinetics in vitro compared to pre-HAART viruses. The presence of ANAB over time suggests that low levels of viral replication may still be ongoing despite HAART. The observation of baseline ANAB activity with earlier plasma against a later RCV suggests that the “latent” reservoir may be established early in life before HAART