The inference of HIV-1 transmission direction between HIV-1 positive couples based on the sequences of HIV-1 quasi-species

Phylogenetic inference of microorganisms’ transmission routes helps humans to understand epidemiologic dynamics of specific microorganism between various regions and species [1‐4]. For those viruses with the ability of high diversity, phylogenetic reconstruction is often used to interpret transmission events. For example, phylogenetic analysis was used to not only identify the origin of high pathogenic influenza virus when high pathogenic influenza virus is present, but also to interpret HIV transmission route between various regions or provinces in a country [5, 6]. HIV transmission among various individuals is often involved in legal disputes between donator and recipient [7, 8]. In some cases, phylogenetic relation of HIV sequences from doubtful donator and recipient was central to the evidence of guilt [9]. Especially, to infer the transmission direction in a transmission chain is vital in these legal cases. Moreover, the interpretation of phylogenetic trees has a broader importance beyond criminal investigations, especially in public health investigations and practices.

Between two epidemiologically linked HIV-1 positive individuals, three possible ways of transmission exist. The first is direct transmission, the second is that there is one intermediary between two HIV-1 positive individuals, the last is that two HIV-1 positive individuals share a common infection source. To infer transmission direction between them, Yang et al. consecutively sampled in various time points for transmission pairs and identified transmission direction by observing the coreceptor switch of HIV from CCR5 to CXCR4 in vivo. Although the accuracy of this method, is up to 94.5%, it takes a long time to identify the direction between transmission pairs, and is only applicable to those viruses using CCR5 coreceptor in the early phase of infection [10]. Therefore, the more common method is to reconstruct phylogenetic relationship using the samples collected at the same time point.

In phylogenetic tree, the paraphyly relationship exists between the donor’s sequences and the recipient’s [11, 12]. Consequently, the transmission direction was inferred [13]. However, the paraphyly relationship between donor’s sequences and the recipient’s often decreases over time because evolution of HIV-1 in vivo in different bodies [11]. Moreover, the evolution of the various gene regions of HIV faces different pressure and experiences different models in vivo [13]. Which implies paraphyly relationship is not always observed, and paraphyly relationship is inconsistent between various gene regions of among epidemiologically linked HIV-1 positive pairs. In this study, we selected seven HIV-1 positive couples to explore the phylogenetic relationship of HIV among them and to analyze the feasibility of using observed paraphyly to infer transmission direction.

In this study, seven epidemiologically linked HIV-1 positive couples were used to infer phylogenetic relation based on quasi-species sequences of HIV-1. Epidemiology investigation confirms that only one side of every couple experienced high-risk behavior associated with HIV-1 infection. The other side of every couple has the unique chance to get HIV infection from his/her spouse. Phylogenetic analysis also shows that all sequences of env and gag region of HIV-1 form a monophyly with respect to controls, which supports that HIV-1 infected each couple shares with the most recent common ancestor and is accordance with the results of epidemiological investigation.

In previous studies, source in a transmission chain was inferred based on observed paraphyly between source and recipient with respect to controls [13]. In our study, paraphyly between source and recipient was only observed in three of seven couples amongst env, gag and pol phylogenetic trees. In couple 13, paraphyly was only observed in gag phylogenetic tree. The rest of them are monophyletic, using the sequences of env, gag or pol of HIV-1. Our findings indicate that paraphyly is not always observed between source and recipient. As we knew, the survival of HIV-1 in vivo experienced pressures from many aspects such as host’s immune system, antiretroviral therapy, which will lead to the loss of HIV diversity in vivo [16‐21]. Therefore, paraphyly of source sequences with respect to recipient sequences will decline over time. It suggested that source can be inferred based on the observed paraphyly, and not be denied when not observing paraphyly. Our finding is consistent with the results by Diane et al [13]. In addition, recombination among viral sequences within the source individual will degrade support for particular paraphyletic relationships over time. In this study, we did not observe paraphyly between source and recipient among less than half of HIV-1 positive couples. As of HIV-1 positive couple living together for long term, HIV-1 transmission should be directional. In this occasion, it become more difficult to infer transmission direction using phylogenetic method. Moreover, it implies that half of persons were untested during the window periods of acute infection.

For most of HIV-1 couples, the phylogenetic relationship on env, gag, pol is consistent (couple 3, 8, 9), and with a support of higher priority value. However, there is always an exception. For example, although the pol sequences of couple 12 form a monophyly with respect to controls, the value of Bayesian posterior probability is very low (only 0.6431). Moreover, paraphyly is observed in phylogenetic tree based on gag region sequences of couple 13 while not appearing in that based on env and pol. Furthermore, the pol sequences of couple 13 are separated by Blast selected controls. The selection pressures that various gene region of HIV face in vivo are different. As we knew, the selective pressure which HIV faces in vivo is different between various gene regions. The most selective pressure was observed in env region, followed by pol region. Gag region is relatively conservative. Therefore, it is necessary to conduct phylogenetic analysis on various gene regions of HIV at the same time during inferring transmission direction.

Paraphyly relationship between sequences of donator and recipient is a vital indication to infer transmission direction in HIV transmission chain. However, it is not applicable to all HIV transmission chains due to loss of paraphyly after infection for some time, especially for those spouse or sex partners living together, and intravenous drug users sharing common syringe over a long term [22]. Moreover, phylogenetic relationship is not always same when various gene regions of HIV are used to conduct phylogenetic analysis. Therefore, the combination of phylogenetic analysis based on various gene regions of HIV and enough epidemiology investigation is essential when inferring transmission direction of HIV in a transmission chain or only a couple.