Genetic Characterization of a Unique Recombinant Strain Identified in Yunnan with Genome Comprising B and C

HIV-1 env gene mutations outside the targeting probe affects IPDA efficiency

The intact proviral DNA assay (IPDA) based on droplet digital PCR was developed to identify intact proviral DNA and quantify HIV-1 latency reservoirs in patients infected with HIV-1. However, the genetic characteristics of different HIV-1 subtypes are non-consistent due to their high mutation and recombination rates. Here, we identified that the IPDA based on the sequences features of an HIV-1 subtype could not effectively detect different HIV-1 subtypes due to the high diversity of HIV-1. Furthermore, we demonstrated that mutations in env gene outside the probe binding site affect the detection efficiency of IPDA. Since mutations in env gene outside the probe binding site may also lead to the formation of stop codons, thereby preventing the formation of viruses and ultimately overestimating the number of HIV-1 latency reservoirs, it is important to address the effect of mutations on the IPDA.

Genetic Characterization of a Novel HIV-1 Second-Generation Recombinant Form Originating from CRF86_BC and a Unique Recombinant Form in Yunnan, China

Yunnan is the first place where human immunodeficiency virus type 1 (HIV-1) became prevalent in China, and it is also the place with the most complicated HIV-1 genetic diversity in China. On October 23, 2019, a patient newly diagnosed with acquired immunodeficiency syndrome from a hospital in Baoshan, Yunnan, was recruited for genetic analysis. Near full-length genome of HIV-1 was amplified from the plasma sample. Phylogenetic analysis revealed that this sequence (BS6F24) has a close relationship with CRF86_BC and a unique recombinant form (URF) (KY406739), which was formed by recombination of subtypes B and C. Bootscan analysis confirmed that the first part (HXB2:1022-5832) and last part (HXB2:5833-9120) genomes of BS6F24 had the same recombinant structures as KY406739 and CRF86_BC, respectively. A second-generation recombinant form that originated from CRF86_BC and a URF were reported for the first time. This indicates the need for continuous monitoring of the genetic diversity of HIV-1 in Yunnan, China.

HIV subtype diversity worldwide

PURPOSE OF REVIEW

To provide a summary of the current data on the global HIV subtype diversity and distribution by region. HIV is one of the most genetically diverse pathogens due to its high-mutation and recombination rates, large population size and rapid replication rate. This rapid evolutionary process has resulted in several HIV subtypes that are heterogeneously globally distributed.

RECENT FINDINGS

Subtype A remains the most prevalent strain in parts of East Africa, Russia and former Soviet Union countries; subtype B in Europe, Americas and Oceania; subtype C in Southern Africa and India; CRF01_AE in Asia and CRF02_AG in Western Africa. Recent studies based on near full-length genome sequencing highlighted the growing importance of recombinant variants and subtype C viruses.

SUMMARY

The dynamic change in HIV subtype distribution presents future challenges for diagnosis, treatment and vaccine design and development. An increase in recombinant viruses suggests that coinfection and superinfection by divergent HIV strains has become more common necessitating continuous surveillance to keep track of the viral diversity. Cheaper near full-length genome sequencing approaches are critical in improving HIV subtype estimations. However, missing subtype data and low sequence sampling levels are still a challenge in some geographical regions. VIDEO ABSTRACT: http://links.lww.com/COHA/A14.

Genomic Characterization of a Novel HIV Type 1 Strain Originating from CRF07_BC and CRF01_AE by Heterosexual Transmission in the Lingshan Prefecture of Guangxi Province, China

Recently, an increasing number of circulating recombinant forms (CRFs) and unique recombinant forms of HIV-1 have been identified in China, contributing substantially to the genetic variability of this virus. This study reports a novel second-generation recombinant form of HIV-1 (GX2015QZLS204), composed of segments from the CRF07_BC and CRF01_AE strains, which was isolated from an HIV-positive male individual infected through heterosexual contact, while residing in the Guangxi province of southwest China. Analysis of the near full-length genome sequence showed that one segment of the CRF01_AE virus subtype was inserted into the CRF07_BC subtype backbone. Recombination analysis demonstrated that the genome of GX2015QZLS204 was separated into seven segments with six breakpoints. Subregion trees constructed by the neighbor-joining method confirmed that the CRF01_AE segment was from the previously identified CRF01_AE cluster 2, and the CRF07_BC segment correlated with the CRF07_BC strain originating from the Jiangxi and Xinjiang provinces of China. The emergence of GX2015QZLS204 highlights the frequent generation of novel recombinant forms and the increasing complications of the HIV-1 epidemic among heterosexual transmission (HET) groups in China. This highlights the importance of monitoring HIV-1 molecular epidemiological characteristics and the urgent need for reduction of the HIV-1 epidemic among HET groups in China.