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Drug-Susceptible HIV-1 Infection Despite Intermittent Fixed-Dose Combination Tenofovir/Emtricitabine as Prophylaxis Is Associated With Low-Level Viremia, Delayed Seroconversion, and an Attenuated Clinical Course
[Rapid Communication]
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JAIDS Journal of Acquired Immune Deficiency Syndromes:Volume 49(2)October 2008pp 117-122
Prada, Nicole PhD*; Davis, Brandi BS*; Jean-Pierre, Patrick MS*; Roche, Matthew La BS*; Duh, Fuh-Mei MS; Carrington, Mary PhD; Poles, Michael MD; Mehandru, Saurabh MD*; Mohri, Hiroshi MD, PhD*; Markowitz, Martin MD*
From the *Aaron Diamond AIDS Research Center, Rockefeller University, New York, NY; SAIC-Frederick, NCI-Frederick, Frederick, MD; and Department of Medicine, New York University School of Medicine, New York, NY.
"Here, we have presented a case report of a patient who becomes infected with drug-susceptible HIV-1 despite intermittent prophylaxis with TDF/FTC. Failure of antiviral drugs used as prophylaxis in animal models has been associated with transmission of drug-susceptible SIV and SHIV, delayed seroconversion, and reduced levels of plasma viremia. As is generally the case, documenting such in newly HIV-1-infected individuals is far more difficult. However, based on the absence of symptoms, slow evolution of a serologic response, documented low levels of plasma viremia, high levels of circulating CD4+ T cells at the time of seroconversion, and relative sparing of the GI mucosa, we conclude that the infection seems attenuated. Furthermore, an extensive analysis of plasma, PBMC, and GI tissue all reveal the infecting viral population to be relatively homogenous and both TDF and FTC susceptible."
Abstract
Background: Continued high rates of HIV-1 transmission have fueled interest in the use of antiretrovirals to prevent infection. Attenuated infection with failure of tenofovir as prophylaxis has been reported in animal models. Here, we report a case of HIV-1 infection despite intermittent use of fixed-dose combination tenofovir and emtricitabine (FTC).
Methods: The patient was treated with tenofovir DF/FTC for reported repeated high-risk sexual exposures. After seroconversion, he was subjected to routine laboratory testing, CCR5 and HLA genotyping, and biopsy of gastrointestinal (GI) tissue. Resistance testing was performed both as bulk sequencing of plasma and cloning and sequencing of virus derived from plasma, peripheral blood mononuclear cells, and GI tissue.
Results: In this patient with no readily identifiable modifying host factors, acute HIV-1 infection with tenofovir DF/FTC-susceptible HIV-1 was associated with an attenuated clinical course, very low postseroconversion HIV-1 RNA levels, slow kinetics of seroconversion, and relative sparing of mucosal CD4+ T cells in the GI tract.
Continued high rates of HIV-1 transmission have mandated vigorous interest in a variety of approaches to prevent new infections including the testing of topical microbicides and prophylactic vaccines. Though the ideal prophylactic agent would result in sterile immunity, it has been theorized that even in the face of infection, a reduction in levels of plasma viremia postinfection may result in reduced transmissions at both the individual and population level.1,2
Recent discouraging results in trials of microbicides and vaccines have further fueled interest in the use of antiretrovirals (ARVs) to prevent infection. ARV therapy has not only increased survival for HIV-infected patients3-5 but has also been used to prevent both vertical transmission6 and transmission due to occupational exposure.7
The demonstrated efficacy of tenofovir DF (TDF) in the treatment of HIV-1 infection,8 the lack of reported serious adverse events associated with its use,8 its long half-life,9,10 and the fact that HIV-1 strains resistant to TDF tend to be less replication competent than wild-type viruses11 make this ARV agent an ideal candidate for pre- and postexposure prophylaxis (PrEP and PEP).
Animal studies have provided evidence that PrEP and PEP with TDF alone, or in combination with emtricitabine (FTC), protect against simian immunodeficiency virus (SIV) and Simian HIV (SHIV) transmission.12-17 Furthermore, animals that become infected despite receiving TDF as PrEP or PEP showed delayed onset of viremia and seroconversion,14,17,18 demonstrating that even in the case of incomplete protection against infection, PrEP/PEP treatment may lead to attenuated acute infection. As transmission risk is a function of plasma viremia and acute infection represents a period during which transmission risk is high,19 such an effect may further act to prevent forward transmissions.
Here, we report a case of an individual infected with a drug-susceptible virus despite the intermittent use of fixed-dose combination TDF/FTC (Truvada; Gilead Sciences, Foster City, CA) as PrEP/PEP. As seen in animal models, the resultant infection displayed an attenuated course that could not be attributed to known modifying host factors, suggesting that despite inability to completely prevent infection, antiviral therapy may indeed modulate acute and early HIV-1 infection with resultant beneficial effects on preventing forward infections.
Conclusions: Despite the failure of tenofovir DF/FTC as prophylaxis, selection for drug-resistant transmission did not occur and the blunting of postinfection levels of viremia likely reduced the probability of subsequent forward transmissions during the acute phase. These results support continued investigations of the use of antiretrovirals as a means to reduce HIV-1 transmission.
DISCUSSION
As the HIV-1 pandemic enters its 26th year, we are faced with continued high rates of new infections despite efforts to modify behaviors, and the prospect of an effective vaccine remains distant. Though microbicide research has clearly advanced, recent failures of clinical trials are reported29 and this preventative mode has questionable applicability to MSM transmission. As such, the use of antiviral drugs as prophylaxis to stem the current tide would seem to be a reasonable and attractive option.
Here, we have presented a case report of a patient who becomes infected with drug-susceptible HIV-1 despite intermittent prophylaxis with TDF/FTC. Failure of antiviral drugs used as prophylaxis in animal models has been associated with transmission of drug-susceptible SIV and SHIV, delayed seroconversion, and reduced levels of plasma viremia. As is generally the case, documenting such in newly HIV-1-infected individuals is far more difficult. However, based on the absence of symptoms, slow evolution of a serologic response, documented low levels of plasma viremia, high levels of circulating CD4+ T cells at the time of seroconversion, and relative sparing of the GI mucosa, we conclude that the infection seems attenuated. Furthermore, an extensive analysis of plasma, PBMC, and GI tissue all reveal the infecting viral population to be relatively homogenous and both TDF and FTC susceptible.
The patient's history describes 3 discrete potential dates of infection. The first documented positive serology was distant from the first exposure (84 days), 54 days from the second, and quite proximal to the third exposure (20 days). Given the very protracted evolution of a serologic response as documented from the Western blot patterns and the very low OD results obtained when using the detuned enzyme-linked immunosorbent assay nearly 2 months after the first reactive serology and the absence of symptoms of acute infection, a clear date of infection is nearly impossible to discern. However, the pace at which antigen-driven serologic responses evolved postinfection was clearly slowed by the use of TDF/FTC, and we believe that this is due to blunting of the burst of plasma viremia generally associated with acute infection-as demonstrated by the plasma viral load levels of 213 and 647 copies per milliliter most proximal to the time of infection during and shortly after TDF/FTC therapy.
The number and severity of symptoms are generally indicative of high viral loads during acute infection.22 That the acute infection was attenuated is further supported by the lack of symptoms. Furthermore, the peripheral CD4+ T-cell count of 1781 cells per cubic millimeter at the time of first reactive serology and the relative sparing of the GI mucosa in the months after infection are also consistent with an attenuated acute infection. Indeed, at the time of biopsy, this patient had approximately 2-fold the %CD4+ T cells, 33% compared with the mean value of 16% in our previously published cohort. Even after the cessation of antiviral therapy, this patient continued to demonstrate modest viremia and well-preserved peripheral CD4+ T-cell counts-whether this reflects a benefit of antiviral therapy or other factors remain unclear. However, as has been seen in the SIV/SHIV macaque model, this patient exhibits delayed seroconversion and persistently modest levels of plasma viremia.
We performed extensive sequence analyses of plasma, PBMC, and GI tract-associated HIV-1 RNA. Though we cannot rule out the possibility that a drug-resistant virus established infection and reverted to susceptible by both phenotype and genotype, the homogenous viral populations, negative results using the highly sensitive allele-specific PCR, and failure to detect archived drug-resistant virus in PBMC would suggest that this was not the case. That TDF/FTC failed to prevent infection with a drug-susceptible virus could be explained by various factors including intermittent dosing, failure to complete a 4-week course of prophylactic therapy after the second reported high-risk exposure, and the possibility that despite history to the contrary, the patient did engage in high-risk behaviors during the 22-day period off TDF/FTC between the second and third reported high-risk sexual encounters. It is encouraging however that despite intermittent therapy, there was no selection for infection with a drug-resistant virus. It is important to emphasize that this case report reflects real-world use of antiviral drugs to prevent infection. It is likely that even in the best of circumstances, adherence will be intermittent, patients will interrupt therapy for periods of time and will likely stop and restart therapy from time to time based on behaviors and perceived risk as was the case here.
Given the nature of attenuated clinical course and laboratory studies, we searched for obvious host factors known to attenuate HIV-1 disease progression. The patient is not heterozygous for the CCR5_32. HLA class I alleles did not reveal either B57 or B27. We realize that this is a minimal exploration into host factors that may modify acute HIV-1 infection and subsequent clinical course, nevertheless, this does support our contention that antiviral therapy did contribute significantly to the observed picture.
We suggest that even if prophylactic antiviral treatment failed in preventing infection, it may have dramatically reduced levels of viral replication postinfection, avoiding the extensive CD4+ cell depletion that usually accompanies acute infection and possibly enabling an adequate immune response to develop and partially control the infection after the withdrawal of the drug.
This finding could have critical relevance on a population level. As it is believed that HIV-1 transmission events occur predominantly during the acute phase of infection as a result of very high plasma viral loads, any intervention that could blunt peak viremia and reduce postinfection levels of circulating virus could have a very beneficial effect on the subsequent spread of infection. We believe that the low postinfection levels of viremia observed in this case likely reduced the probability of subsequent forward transmissions. Hence, these results echo that which has been seen in animal models and strongly support continued investigations of the use of antiviral agents as a means to reduce HIV-1 transmission not only for the individual but also for the population at highest risk.
RESULTS
The patient is an MSM and reported unprotected receptive anal intercourse (URAI) with multiple partners on September 24, 2006, and September 25, 2006. TDF/FTC was initiated as PEP on September 26, 2006. Due to repeated exposures at the end of initial 4 weeks (October 24, 2006) of PEP, the course was extended and continued for an additional 2 weeks until November 7, 2006. On November 28, 2006, patient reported unprotected receptive anal intercourse with multiple partners, and TDF/FTC was again started on November 29, 2006, without serologic or HIV-1 RNA testing and therapy continued through December 29, 2006. Patient remained asymptomatic throughout and was found to have seroconverted on December 18, 2006. Critically, the patient insisted that there were no additional sexual contacts between November 7, 2006, and November 28, 2006-the period during which he remained off TDF/FTC.
At presentation, the patient did not report any symptoms that could be consistent with acute HIV-1 infection.22 He had nonreactive serologic tests between October 11, 2006, and November 7, 2006, 17 and 44 days after the first reported exposure and 14 days after the second reported event (Fig. 1). A positive enzyme-linked immunoabsorbent (EIA) test, confirmed by Western blot with viral bands reportedly observed at p24, p40, p51, and gp160, was documented on December 18, 2006, while on TDF/FTC, 20, 56, and 84 days after the 3 reported episodes of high-risk sexual exposures, respectively. On February 8, 2007, 52 days after the first positive serology, the EIA remained positive and a detuned EIA was nonreactive with an optical density (OD) of 0.005. A subsequent EIA was reactive on February 16, 2007. The detuned EIA remained nonreactive with an OD of 0.133 on March 15, 2007, and was reactive by June 26, 2007, with an OD of 2.304. Serial Western blots over the 5-month period are shown in Figure 2 demonstrating increasing intensity of bands at gp160, p55, and p24 and the gradual appearance of bands at gp120, p51, and p31, consistent with the slowly evolving serologic response to HIV-1.
Despite the recent infection and seroconversion, plasma HIV-1 RNA levels were 213 copies per milliliter while on TDF/FTC on December 22, 2006, and 647 copies per milliliter on January 9, 2007, 11 days after terminating TDF/FTC. Subsequent HIV-1 RNA levels and CD4 cell counts are shown (Fig. 1).
Resistance Testing
The PhenoSense assay indicated that the patient's virus was pansusceptible to all ARV agents. Consensus sequence analysis of plasma-derived HIV-1 and 41 clones from plasma, 25 from PBMC, and 18 from GI tract-associated lymphoid tissue HIV-1 RNA were uniform (Fig. 3) and failed to reveal amino acid substitutions known to confer resistance to TDF (K65R, K70E)23,24 or FTC (M184V/I).25,26 These data were confirmed by allele-specific PCR which failed to detect point mutations associated with TDF or FTC resistance. The T215D amino acid substitution in reverse transcriptase was seen in all clones and the plasma consensus sequence consistent with a thymidine analogue resistant revertant that is not associated with reduced susceptibility to either TDF or FTC.
Viral Tropism
We sequenced the viral envelope and used a 105-bp segment incorporating the third variable loop to predict the tropism of the infecting viral population, and not surprisingly R5 tropism was predicted. Interestingly, the crown or antigenic tip of the loop contained an unusual amino acid, APGK, which though reported27 is not known to be associated with enhanced neutralizability.
Host Factors
The determination of the patient's CCR5 genotype indicated homozygosity for the wild-type allele. The class I HLA type of the patient is as follows: HLA-A*0201/A*3002, B*1501/B*1801, C*0304/C*0501. Though this evaluation is limited, there are no clear host factors identified, that is, HLA B57, 27, or CCR5_32 heterozygosity, to readily explain the attenuated acute infection observed.
GI Tract Data
Flow cytometry analysis revealed that the percentage of mucosal CD4+ T cells in the patient (33%) was intermediate between the percentage observed on average in patients with acute infection and in uninfected subjects (16% and 56%, respectively).21 Furthermore, the percentage of memory (CD45R0+) CD4+ and CD8+ T cells expressing the activation marker HLA-DR in the GI tissue of the patient (18% and 30%, respectively) was intermediate between the percentage observed in uninfected subjects (11.3% and 19.8%, respectively) and acutely infected patients (29.0% and 47.6%, respectively).28
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