Robert Yarchoan

Cancer Burden in the HIV-Infected Population in the United States

BACKGROUND Effective antiretroviral therapy has reduced the risk of AIDS and dramatically prolonged the survival of HIV-infected people in the United States. Consequently, an increasing number of HIV-infected people are at risk of non-AIDS-defining cancers that typically occur at older ages. We estimated the annual number of cancers in the HIV-infected population, both with and without AIDS, in the United States. METHODS Incidence rates for individual cancer types were obtained from the HIV/AIDS Cancer Match Study by linking 15 HIV and cancer registries in the United States. Estimated counts of the US HIV-infected and AIDS populations were obtained from Centers for Disease Control and Prevention surveillance data. We obtained estimated counts of AIDS-defining (ie, Kaposi sarcoma, non-Hodgkin lymphoma, and cervical cancer) and non-AIDS-defining cancers in the US AIDS population during 1991-2005 by multiplying cancer incidence rates and AIDS population counts, stratified by year, age, sex, race and ethnicity, transmission category, and AIDS-relative time. We tested trends in counts and standardized incidence rates using linear regression models. We multiplied overall cancer rates and HIV-only (HIV infected, without AIDS) population counts, available from 34 US states during 2004-2007, to estimate cancers in the HIV-only population. All statistical tests were two-sided. RESULTS The US AIDS population expanded fourfold from 1991 to 2005 (96,179 to 413,080) largely because of an increase in the number of people aged 40 years or older. During 1991-2005, an estimated 79 656 cancers occurred in the AIDS population. From 1991-1995 to 2001-2005, the estimated number of AIDS-defining cancers decreased by greater than threefold (34,587 to 10,325 cancers; P(trend) < .001), whereas non-AIDS-defining cancers increased by approximately threefold (3193 to 10,059 cancers; P(trend) < .001). From 1991-1995 to 2001-2005, estimated counts increased for anal (206 to 1564 cancers), liver (116 to 583 cancers), prostate (87 to 759 cancers), and lung cancers (875 to 1882 cancers), and Hodgkin lymphoma (426 to 897 cancers). In the HIV-only population in 34 US states, an estimated 2191 non-AIDS-defining cancers occurred during 2004-2007, including 454 lung, 166 breast, and 154 anal cancers. CONCLUSIONS Over a 15-year period (1991-2005), increases in non-AIDS-defining cancers were mainly driven by growth and aging of the AIDS population. This growing burden requires targeted cancer prevention and treatment strategies.

CD4 Counts as Predictors of Opportunistic Pneumonias in Human Immunodeficiency Virus (HIV) Infection

STUDY OBJECTIVE To determine if circulating CD4+ lymphocyte counts are predictive of specific infectious or neoplastic processes causing pulmonary dysfunction. DESIGN Retrospective, consecutive sample study. SETTING Referral-based clinic and wards. PATIENTS We studied 100 patients infected with human immunodeficiency virus (HIV) who had had 119 episodes of pulmonary dysfunction within 60 days after CD4 lymphocyte determinations. MEASUREMENTS AND MAIN RESULTS Circulating CD4 counts were less than 0.200 X 10(9) cells/L (200 cells/mm3) before 46 of 49 episodes of pneumocystis pneumonia, 8 of 8 episodes of cytomegalovirus pneumonia, and 7 of 7 episodes and 19 of 21 episodes of infection with Cryptococcus neoformans and Mycobacterium avium-intracellulare, respectively. In contrast, circulating CD4 counts before episodes of nonspecific interstitial pneumonia were quite variable: Of 41 episodes, 11 occurred when CD4 counts were greater than 0.200 X 10(9) cells/L. The percent of circulating lymphocytes that were CD4+ had a predictive value equal to that of CD4 counts. Serum p24 antigen levels had no predictive value. CONCLUSIONS Pneumocystis pneumonia, cytomegalovirus pneumonia, and pulmonary infection caused by C. neoformans or M. avium-intracellulare are unlikely to occur in HIV-infected patients who have had a CD4 count above 0.200 to 0.250 X 10(9) cells/L (200 to 250 cells/mm3) or a CD4 percent above 20% to 25% in the 60 days before pulmonary evaluation. Patients infected with HIV who have a CD4 count below 0.200 X 10(9) cells/L (or less than 20% CD4 cells) are especially likely to benefit from antipneumocystis prophylaxis.

Effect of Continuous Intravenous Infusion of Zidovudine (AZT) in Children with Symptomatic HIV Infection

Abstract To produce concentrations of zidovudine (AZT) in plasma and cerebrospinal fluid that would provide constant inhibition of the replication of human immunodeficiency virus (HIV), we gave AZT by continuous intravenous infusion to 21 children ranging in age from 14 months to 12 years who had acquired HIV infection through transfusions or perinatally. All patients were symptomatic before AZT treatment (Class P2 of the Centers for Disease Control); 13 (62 percent) had evidence of neurodevelopmental abnormalities. The mean CD4/CD8 ratio was 0.18; 11 patients had CD4 counts below 0.2X109 per liter. We administered AZT at four dose levels: 0.5, 0.9, 1.4, and 1.8 mg per kilogram of body weight per hour. The plasma drug concentrations achieved at the respective dose levels were 1.9±0.3, 2.8±1.4, 3.1 ±1.1, and 4.5±1.0 μM. The steady-state cerebrospinal fluid:plasma ratio was 0.24±0.07. The only evidence of toxicity was bone marrow suppression. Transfusion was required in 14 patients because of low levels of ...

Plasma and cerebrospinal fluid pharmacokinetics of 3′‐azido‐3′‐deoxythymidine: A Novel pyrimidine analog with potential application for the treatment of patients with AIDS and related diseases

We investigated the clinical pharmacokinetics of azidothymidine (N3TdR) as part of a phase I/II trial in the treatment of acquired immunodeficiency syndrome and related diseases. During the 6‐week course of therapy, drug levels in plasma, cerebrospinal fluid, and urine were determined by HLPC. The plasma half‐life of N3TdR was 1.1 hour. The total body clearance was 1.3 L/kg/hr. At intravenous doses of 5 mg/kg or oral doses of 10 mg/kg, plasma levels were continuously maintained above the target level of 1 μmol/L. Oral bioavailability was 63% ± 13%. Substantial penetration of N3TdR into cerebrospinal fluid was demonstrated. At doses of 5 mg/kg intravenously or 10 mg/kg orally, cerebrospinal fluid drug levels exceeded and were maintained close to 1 μmol/L. Nineteen percent of the administered dose was excreted unchanged into the urine. Renal clearance was 0.23 L/kg/hr. N3TdR possesses pharmacokinetic properties that would facilitate the long‐term treatment of patients with acquired immunodeficiency syndrome: it can be given orally and it penetrates the central nervous system.

Activity of Thalidomide in AIDS-Related Kaposi’s Sarcoma

PURPOSE To assess the toxicity and activity of oral thalidomide in Kaposis sarcoma (KS) in a phase II dose-escalation study. PATIENTS AND METHODS Human immunodeficiency virus (HIV)-seropositive patients with biopsy-confirmed KS that progressed over the 2 months before enrollment received an initial dose of 200 mg/d of oral thalidomide in a phase II study. The dose was increased to a maximum of 1,000 mg/d for up to 1 year. Anti-HIV therapy was maintained during the study period. Toxicity, tumor response, immunologic and angiogenic factors, and virologic parameters were assessed. RESULTS Twenty patients aged 29 to 49 years with a median CD4 count of 246 cells/mm(3) (range, 14 to 646 cells/mm(3)) were enrolled. All patients were assessable for toxicity, and 17 for response. Drowsiness in nine and depression in seven patients were the most frequent toxicities observed. Eight (47%; 95% confidence interval [CI], 23% to 72%) of the 17 assessable patients achieved a partial response, and an additional two patients had stable disease. Based on all 20 patients treated, the response rate was 40% (95% CI, 19% to 64%). The median thalidomide dose at the time of response was 500 mg/d (range, 400 to 1,000 mg/d). The median duration of drug treatment was 6.3 months, and the median time to progression was 7.3 months. CONCLUSION Oral thalidomide was tolerated in this population at doses up to 1,000 mg/d for as long as 12 months and was found to induce clinically meaningful anti-KS responses in a sizable subset of the patients. Additional studies of this agent in KS are warranted.

Differential Gene Up-Regulation by Hypoxia-Inducible Factor-1α and Hypoxia-Inducible Factor-2α in HEK293T Cells

Cells exposed to hypoxia respond by increasing the level of hypoxia-inducible factor-1 (HIF-1). This factor then activates a number of genes by binding to hypoxia response elements in their promoter regions. A second hypoxia-responsive factor, HIF-2, can activate many of the same genes as HIF-1. Overexpression of HIFs accompanies the pathogenesis of many tumors. It is unclear, however, as to the respective role of these factors in responsiveness to hypoxia and other stresses. To address this issue, we used microarray technology to study the genes activated in HEK293T cells by hypoxia or transfection with the alpha chain of HIF-1 (or mutant HIF-1 resistant to degradation) or HIF-2. Fifty-six genes were found to be up-regulated at least 3-fold by either hypoxia or transfection. Of these, 21 were elevated both by transfection with HIF-1alpha and with HIF-2alpha, and 14 were preferentially activated by HIF-1alpha including several involved in glycolysis. Ten genes were preferentially activated by HIF-2alpha, including two (CACNA1A and PTPRZ1) implicated in neurologic diseases. Interestingly, most HIF-2alpha-responsive genes were not substantially activated by hypoxia. An additional 10 genes were up-regulated by hypoxia but minimally activated by HIF-1alpha or HIF-2alpha transfection. Ten of the genes were studied by quantitative real-time PCR and/or by Northern blot and the results paralleled those found with microarray technology. Although confirmation in other systems will be necessary, these results indicate that whereas some genes are robustly activated by both HIF-1 and HIF-2, others can be preferentially activated by one or the other factor.

Development of Non-Hodgkin Lymphoma in a Cohort of Patients with Severe Human Immunodeficiency Virus (HIV) Infection on Long-Term Antiretroviral Therapy

OBJECTIVE To describe the incidence of non-Hodgkin lymphoma in a group of patients with symptomatic human immunodeficiency virus (HIV) infection receiving long-term dideoxynucleoside antiretroviral therapy. DESIGN We examined the records of all patients with the acquired immunodeficiency syndrome (AIDS) or severe AIDS-related complex who were entered into three long-term phase I trials of zidovudine (azidothymidine, AZT) or zidovudine-containing regimens at the National Cancer Institute between 1985 and 1987. SETTING The Warren G. Magnuson Clinical Center, National Institutes of Health, Bethesda, Maryland. PARTICIPANTS Fifty-five HIV-infected patients with AIDS or severe AIDS-related complex. MEASUREMENTS AND MAIN RESULTS Eight of fifty-five patients (14.5%; 95% CI, 6.5% to 26.7%) developed a high-grade non-Hodgkin lymphoma of B-cell type, a median of 23.8 months (range, 13 to 35 months) after starting antiretroviral treatment. Using the method of Kaplan and Meier, the estimated probability of developing lymphoma by 30 months of therapy was 28.6% (CI, 13.7% to 50.3%) and by 36 months, 46.4% (CI, 19.6% to 75.5%). The patients who developed lymphoma had less than 100 T4 cells/mm3 for a median of 17.8 months (range, 7 to 35 months) and less than 50 T4 cells/mm3 for a median of 15.3 months (range, 5.5 to 35 months) before the diagnosis. All patients presented with non-Hodgkin lymphoma in extranodal sites, and two developed primary brain involvement in the setting of Toxoplasma infection. CONCLUSION Patients with symptomatic HIV infection who survive for up to 3 years on antiretroviral therapy may have a relatively high probability of developing non-Hodgkin lymphoma. Prolonged survival in the setting of profound immunosuppression with substantial T4-cell depletion is probably an important factor in the development of these lymphomas. However, a direct role of therapy itself cannot be totally discounted. As improved therapies for the treatment of HIV infection and its complications result in prolonged survival, non-Hodgkin lymphoma may become an increasingly significant problem.

Transcription Program of Human Herpesvirus 8 (Kaposi's Sarcoma-Associated Herpesvirus)

ABSTRACT Human herpesvirus 8 (HHV-8), a gammaherpesvirus implicated in Kaposis sarcoma, primary effusion lymphoma, and Castlemans disease, encodes several pathogenically important cellular homologs. To define the HHV-8 transcription program, RNA obtained from latently infected body cavity-based lymphoma 1 cells induced to undergo lytic replication was used to query a custom HHV-8 DNA microarray containing nearly every known viral open reading frame. The patterns of viral gene expression offer insights into the replication and pathogenic strategies of HHV-8.

Productive infection of dendritic cells by HIV-1 and their ability to capture virus are mediated through separate pathways.

There is substantial evidence that dendritic cells (DC) residing within epithelial surfaces (e.g., Langerhans cells) are the initial cells infected with HIV after mucosal exposure to virus. To study DC-HIV interactions in detail, we propagated Langerhans cell-like DC from cord blood CD34(+) cells and from adult blood plastic-adherent PBMC in the presence of cytokines (GM-CSF, IL-4, and/or TNF-alpha). DC pulsed overnight with HIVBaL or HIVIIIB were infected productively with both viral subtypes (as assessed by PCR, supernatant p24 protein levels, electron microscopy, and antibody staining). Productive infection could be blocked by anti-CD4 mAbs, RANTES (regulated upon activation, normal T cell expressed and secreted) (for HIVBaL), stromal cell-derived factor-1 (for HIVIIIB), or azidothymidine added during the HIV pulse, as well as by blocking DC proliferation. However, pulsing DC with HIV under these blocking conditions had no effect on the ability of DC to capture virus and transmit infection to cocultured antigen-stimulated CD4(+) T cells. Thus, we show by several criteria that (a) productive infection of DC and (b) the ability of DC to capture virus are mediated through separate pathways. We suggest that strategies designed to block mucosal transmission of HIV should consider interfering with both virus infection and virus capture by DC.

Mechanisms of B cell activation in patients with acquired immunodeficiency syndrome and related disorders. Contribution of antibody-producing B cells, of Epstein-Barr virus-infected B cells, and of immunoglobulin production induced by human T cell lymphotropic virus, type III/lymphadenopathy-associated virus.

Patients with acquired immunodeficiency syndrome (AIDS) and AIDS-related complex (ARC) have hyperimmunoglobulinemia and increased numbers of circulating immunoglobulin-secreting cells. In this paper, we studied the basis for this B cell hyperactivity. Limiting dilution studies of B cells from seven patients with ARC and four with AIDS revealed that some B cells spontaneously produced antibodies to human T cell lymphotropic virus, type III/lymphadenopathy-associated virus (HTLV-III/LAV) (39:10(6) and 7:10(6) B cells, respectively), suggesting that chronic antigenic stimulation by HTLV-III/LAV was one contributing factor. The patients also had an increased number of spontaneously outgrowing B cells than did normals (6:10(6) vs. less than 2:10(6) B cells), suggesting that they had an increased number of Epstein-Barr virus (EBV)-infected B cells. However, fewer B cells from patients were immortalized by exogenously added EBV than were B cells from normals. In additional studies, HTLV-III/LAV induced immunoglobulin secretion (mean 2,860 ng/ml) by peripheral blood mononuclear cells from normals; this HTLV-III/LAV-induced immunoglobulin secretion required the presence of both B and T cells. Thus, antigenic stimulation by HTLV-III/LAV, increased numbers of EBV-infected B cells, and HTLV-III/LAV-induced T cell-dependent B cell activation all contribute to the B cell hyperactivity in patients with HTLV-III/LAV disease.