Detection and quantification of human immunodeficiency virus-1 (HIV-1) total nucleic acids in wastewater settled solids from two California communities.

Abstract

Wastewater surveillance for infectious agents has proved useful in identifying the circulation of viruses within populations. We investigated the presence and concentration of human immunodeficiency virus (HIV)-1 total nucleic acids (including both viral RNA and proviral DNA) in wastewater solids. We retrospectively measured HIV-1 nucleic acids in two samples per week for 26 months at two wastewater treatment plants serving populations with different prevalences of HIV infections in San Francisco and Santa Clara County, California, USA. We detected HIV nucleic acids in a majority of samples with concentrations ranging from non-detect to 3.9 × 10⁵ cp/g (N = 459 samples total). Concentrations of HIV-1 were significantly higher in samples from the wastewater treatment plant serving a population with a higher prevalence of people living with HIV than in the plant serving a population with a lower prevalence. The HIV-1 nucleic acids amplified were primarily DNA and thus represented proviral DNA shedding into wastewater. Additionally, we found that HIV-1 nucleic acid concentrations in wastewater solids were orders of magnitude higher than those in liquid wastewater indicating that the HIV-1 target preferentially sorbs to solids. Whether concentrations of HIV-1 in wastewater solids can be used to identify the number of incident cases remains unknown. Additional work on HIV-1 shedding from individuals with viremia and people living with HIV is needed to translate wastewater measurements into quantitative information on infections. Additional work may also be needed to document non-human sources of HIV-1 nucleic acids in wastewater.

Importance: Human immunodeficiency virus (HIV)-1 has infected nearly 100 million people since it emerged in the 1980s. Antiretroviral therapy prevents transmission of HIV and also allows infected individuals to live healthy lives with normal life expectancy. Consequently, identifying unrecognized cases of HIV is of paramount importance. Since wastewater represents a composite biological sample from a community, it may provide valuable information on HIV-1 prevalence that can be used to inform HIV testing and outreach.