AIDS: a syndrome of immune dysregulation, dysfunction, and deficiency

Acquired immune deficiency syndrome (AIDS) is a disease caused by the human immunodeficiency virus (HIV) in which cellular immune functions are severely impaired. Acute infection and subsequent destruction of helper T cells, although occurring readily in cell cultures, do not appear to be the only mechanisms mediating helper T cell loss. Other mechanisms that may account for the loss of helper T cells include: T cell syncytia formation, decreased T cell production, and autoimmune-related destruction of helper T cells. Immune abnormalities seen early in the course of HIV infection include immune hyperactivation and autoimmune phenomena suggestive of immune dysregulation rather than immune deficiency. Many changes in immune function are, in fact, seen in HIV-seropositive patients who possess a normal number of helper T cells. Mechanisms (other than the loss of helper T cells) that may contribute to the immune abnormalities seen in these patients include noninfectious effects of HIV and HIV proteins, effects of HIV on non-T cells, autoimmune-related manifestations of HIV infection, and HIV-induced activation of normal immunosuppressive circuits.     

Does apoptosis contribute to CD4 T cell depletion in human immunodeficiency virus infection ?

Despite an extensive knowledge of the molecular characteristics of the human immunodeficiency virus (HIV) identified more than ten years ago as the cause of AIDS (acquired immune deficiency syndrome) (Barre-Sinoussi et al. 1983) some critical questions have not been answered yet: Is the progressive disappearance of CD4+ helper T lymphocytes, the hallmark of AIDS, directly related to the killing of infected cells by the virus? If not, how do CD4+T cells die? Is HIV using its viral factory to kill uninfected bystander cells? What causes the immune system collapse in HIV infection? In the past three years some important studies have provided stimulating clues suggesting that AIDS is not only related to the killing of host cells by HIV but is also a consequence of mechanisms of misactivation of the immune system, leading to anergy or apoptosis of non-infected effector cells. We discuss some of the in vivo and in vitro models providing evidence that HIV is able to kill and cripple the immune system either by acting directly on its targets or indirectly in bystander T cells keeping in mind that HIV disease must be considered as a multifactorial process.     

Virally induced CD4+ T cell depletion is not sufficient to induce AIDS in a natural host

Peripheral blood CD4+ T cell counts are a key measure for assessing disease progression and need for antiretroviral therapy in HIV-infected patients. More recently, studies have demonstrated a dramatic depletion of mucosal CD4+ T cells during acute infection that is maintained during chronic pathogenic HIV as well as SIV infection. A different clinical disease course is observed during the infection of natural hosts of SIV infection, such as sooty mangabeys (Cercocebus atys), which typically do not progress to AIDS. Previous studies have determined that SIV+ mangabeys generally maintain healthy levels of CD4+ T cells despite having viral replication comparable to HIV-infected patients. In this study, we identify the emergence of a multitropic (R5/X4/R8-using) SIV infection after 43 or 71 wk postinfection in two mangabeys that is associated with an extreme, persistent (>5.5 years), and generalized loss of CD4+ T cells (5-80 cells/microl of blood) in the absence of clinical signs of AIDS. This study demonstrates that generalized CD4+ T cell depletion from the blood and mucosal tissues is not sufficient to induce AIDS in this natural host species. Rather, AIDS pathogenesis appears to be the cumulative result of multiple aberrant immunologic parameters that include CD4+ T cell depletion, generalized immune activation, and depletion/dysfunction of non-CD4+ T cells. Therefore, these data provide a rationale for investigating multifaceted therapeutic strategies to prevent progression to AIDS, even following dramatic CD4 depletion, such that HIV+ humans can survive normal life spans analogous to what occurs naturally in SIV+ mangabeys.     

The Vancouver Lymphadenopathy-AIDS Study: 5. Antecedent behavioural,clinical and laboratory findings in patients with AIDS and HIV-seropositive controls.

In a group of homosexual men in Vancouver studied prospectively since November 1982, 26 cases of acquired immune deficiency syndrome (AIDS) have arisen. To identify behavioural, clinical and laboratory findings that might predict the development of AIDS in people with antibody to human immunodeficiency virus (HIV), we compared data for 25 patients with AIDS with corresponding data for 80 controls serologically positive for HIV selected from the cohort. The clinical and laboratory data for the patients with AIDS preceded the diagnosis of the syndrome by a mean of 17.5 months. The controls had been both seropositive and AIDS-free for a mean of 16.7 months after acquisition of their data. We detected significant differences between the patients with AIDS and the controls in IgG and IgA levels, absolute number of helper T cells and ratio of helper to suppressor T cells but not in lifetime number of male sexual partners, frequency of receptive anal intercourse or receptive fisting, illicit drug use or history of infectious disease. We also detected an increased risk of AIDS among those who had an elevated number of sexual contacts in AIDS-endemic areas in the 5 years before enrollment. A history of increased early sexual contact in AIDS-endemic areas is likely to be associated with early infection and with an increased risk of AIDS among men with HIV infection of unknown duration. Thus, although our analysis had limited statistical power, we conclude that most lifestyle variables appear to act as exposure factors in HIV infection but not as cofactors in the development of AIDS.     

Temporal relation of antigenaemia and loss of antibodies to core antigens to development of clinical disease in HIV infection.

A total of 276 sequential serum samples from 34 men with antibodies to the human immunodeficiency virus (HIV) followed up for two to seven years were analysed for HIV antigen and antibodies to the viral core and envelope proteins. Results were correlated with clinical outcome and CD4 T lymphocyte count. Both antigenaemia and the disappearance of antibodies to the core protein were associated with development of the acquired immune deficiency syndrome (AIDS) or AIDS related complex and depletion of CD4 cells. Thus AIDS or AIDS related complex developed in eight out of 16 patients with antigenaemia compared with one out of 18 patients without antigenaemia. Low counts of CD4 cells (less than 0.5 X 10(9)/l) were found in 14 of the 16 patients with antigenaemia and five of the 18 without antigenaemia. Nine patients seroconverted to HIV during the study; two of these developed antigenaemia 14 and 16 months after the estimated time of seroconversion. These results show that the late stages of HIV infection are characterised by increased production of antigen and a decrease in antibodies directed against the core protein. Antigenaemia indicates a poor prognosis; and as the antigen test is simple to do and interpret, it may therefore be useful for selecting patients for antiviral treatment.     

Why is HIV a pathogen?

The pathogenesis of HIV begins with a profound depletion of CD4+ T cells in the gut followed by a long period of clinically silent but dynamic virus replication and diversification with high host cell turnover before the onset of AIDS. The AIDS-defining opportunistic infections and tumors mark the end-point of a long balancing act between virus and host that occurs when CD4+ T cell numbers fall below a level that can sustain immunity. Comparative studies of lentivirus infections in other species show that AIDS is not an inevitable outcome of infection because simian immunodeficiency virus in natural hosts seldom causes disease. What distinguishes pathogenic from 'passenger' infection is a systemic activation of immune responses followed by destruction of the integrity of lymphoid follicles. Macrophage and dendritic cell infection also contribute to pathogenesis. Maedi-Visna virus infection in sheep, which targets these cells but not T lymphocytes, also leads to progressive disease and death that resembles the wasting and brain diseases of HIV without the T cell immunodeficiency. Thus, lessons from pathogenic and nonpathogenic lentivirus infections provide insight into the complex syndrome called AIDS.     

Resistance of chimpanzee T cells to human immunodeficiency virus type 1 Tat-enhanced oxidative stress and apoptosis.

CD4+ T-cell depletion in AIDS patients involves induction of apoptosis in human immunodeficiency virus (HIV)-infected and noninfected T cells. The HIV type 1 (HIV-1)-transactivating protein Tat enhances apoptosis and activation-induced cell death (AICD) of human T cells. This effect is mediated by the CD95 (APO-1/Fas) receptor-CD95 ligand (CD95L) system and may be linked to the induction of oxidative stress by Tat. Here we show that HIV-1 Tat-induced oxidative stress is necessary for sensitized AICD in T cells caused by CD95L expression. Tat-enhanced apoptosis and CD95L expression in T cells are inhibited by neutralizing anti-Tat antibodies, antioxidants, and the Tat inhibitor Ro24-7429. Chimpanzees infected with HIV-1 show viral replication resembling early infection in humans but do not show T-cell depletion or progression towards AIDS. The cause for this discrepancy is unknown. Here we show that unlike Tat-treated T cells in humans, Tat-treated chimpanzee T cells do not show downregulation of manganese superoxide dismutase or signs of oxidative stress. Chimpanzee T cells are also resistant to Tat-enhanced apoptosis, AICD, and CD95L upregulation.     

HIV persistence in monocytes leads to pathogenesis and AIDS

An hypothesis of the pathogenic mechanism leading to acquired immunodeficiency syndrome (AIDS) that places special emphasis on the potential for infected monocytes to act as the reservoir of a persistent human immunodeficiency virus (HIV) infection has been developed. Monocytes may mediate directly the infection and ultimate destruction of helper T cells; this establishes a direct relationship between antigen presentation and HIV dissemination, thus accounting for the cytopathogenic effects and immune system debilitation associated commonly with AIDS. The possibility that this mode of virus dissemination can account for the depletion of helper-T-cell subsets based on their antigen specificity is considered and may explain why the cellular immune response to the virus is ineffective. This concept and may also elucidate the role of intercurrent infections in the development of disease and it suggests mechanistic explanations for the conversion from prodromal to fulminant AIDS.     

CD16+ monocyte-derived macrophages activate resting T cells for HIV infection by producing CCR3 and CCR4 ligands

The CD16(+) monocyte (Mo) subset produces proinflammatory cytokines and is expanded in peripheral blood during progression to AIDS, but its contribution to HIV pathogenesis is unclear. In this study, we investigate the capacity of human CD16(+) and CD16(-) Mo subsets to render resting CD4(+) T cells permissive for HIV replication. We demonstrate that CD16(+) Mo preferentially differentiate into macrophages (Mphi) that activate resting T cells for productive HIV infection by producing the CCR3 and CCR4 ligands CCL24, CCL2, CCL22, and CCL17. CD16(+), but not CD16(-), Mo-derived Mphi from HIV-infected and -uninfected individuals constitutively produce CCL24 and CCL2. Furthermore, these chemokines stimulate HIV replication in CD16(-) Mo:T cell cocultures. Engagement of CCR3 and CCR4 by CCL24 and CCL2, respectively, along with stimulation via CD3/CD28, renders T cells highly permissive for productive HIV infection. Moreover, HIV replicates preferentially in CCR3(+) and CCR4(+) T cells. These findings reveal a new pathway of T cell costimulation for increased susceptibility to HIV infection via engagement of CCR3 and CCR4 by chemokines constitutively produced by CD16(+) Mo/Mphi. Thus, expansion of CD16(+) Mo in peripheral blood of HIV-infected patients and their subsequent recruitment into tissues may contribute to chronic immune activation and establishment of viral reservoirs in resting T cells.     

The value of primate models for studying human immunodeficiency virus pathogenesis

Abstract: Research on human immunodeficiency virus (HIV) infection is compromised by the obvious limitation in having for study only virus-infected individuals or those exposed to the virus. Steps involved in transmission or pathogenesis require planned experimentation. The identification of animal models of acquired immunodeficiency syndrome (AIDS) has therefore been helpful for evaluating phases of HIV pathogenesis. Of the seven subgenera of lentiviruses now recognized, two share the characteristics with HIV of a T cell tropism and the associated loss of CD4+ cells in the host associated with disease: the feline immunodeficiency virus (FIV) and the simian immunodeficiency virus (SIV) (Table 1). The other animal lentiviruses grow best in macrophages and their infection generally reflects clinical sequellae of infection of this cell type. This review addresses those features of SIV, HIV, and SHIV infections of non-human primates that illustrate the importance of the animal models of AIDS.     

Thymosin alpha 1: amino acid homology with peptide T from the human immunodeficiency virus envelope

Thymosin alpha 1 has many effects on immune function and its absence in primary immunodeficiency states produce a clinical presentation similar to the one encountered in acquired immune deficiency syndrome (AIDS). Human immunodeficiency virus (HIV), the etiologic agent of AIDS, binds to T4 helper/inducer lymphocytes through specific surface receptors which include the CD4 glycoprotein. Octapeptide T, a component of the HIV envelope, mediates the binding of HIV to its receptor. In this report, we draw attention to the similarity between the amino acid sequence of thymosin alpha 1 and peptide T and its analogues. This similarity can produce a cross-reactivity between thymosin alpha 1 and HIV and may be a factor in the pathophysiology of the acquired immuno-deficiency syndrome.     

Apoptotic cell death and cytokine dysregulation in human immunodeficiency virus infection: pivotal factors in disease progression

The progressive loss of CD4 T lymphocyte is patognomonic of Human Immunodeficiency Virus (HIV) infection and results in immunodeficiency and the appearance of acquired immunodeficiency syndrome (AIDS)-defining pathologies. Although a percentage of CD4 T lymphocytes is destroyed directly by HIV infection, a much higher proportion of lymphocytes remains uninfected and therefore must be destroyed by mechanisms not directly involving viral infection. One such mechanism is apoptotic T cell death (ATCD). ATCD in HIV infection has been shown to be: 1) secondary to cross-linking of CD4 by viral proteins; 2) mediated by both APO-1/Fas and lymphotoxin (LT); and 3) differentially modulated by type 1 and type 2 cytokines. We will briefly analyze the experimental evidences suggesting that ATCD contributes significantly to the immunopathogenesis of HIV/AIDS via depletion of CD4+ T cells.     

HIV感染者/AIDS病人高迁移率族蛋白1的表达及其临床意义

通过检测74例处于不同病期的HIV感染者/AIDS患者和10例健康对照者PBMCs中HMGB1 mRNA的表达水平及其外周血浆HMGB1、TNF-a和IL-2水平,比较各组之间表达水平的差异及其与CD4＋T淋巴细胞的关系.发现HMGB1 mRNA的表达水平及血浆HMGB1含量在AIDS病人组明显高于感染者组和正常对照组（P〈0.05）;AIDS患者经HAART治疗后疗效差组HMGB1 mRNA的表达水平及血浆HMGB1含量也明显高于疗效好组（P〈0.05）;而经HAART治疗后效果好且免疫功能恢复的患者HMGB1 mRNA的表达及血浆HMGB1含量均较治疗前明显下降（P〈0.05）;当CD4＋T细胞数低于200/μL时,血浆HMGB1含量以及PBMCs中HMGB1 mRNA表达水平与CD4＋T细胞数呈负相关.显示HMGB1在HIV/AIDS发病及病情进展过程中可能起重要作用,HMGB1血浆含量及PBMCs中HMGB1 mRNA的表达水平高低与HIV/AIDS患者病情轻重密切相关.     

CD4+CD25+FoxP3+ 调节性T 细胞与黑龙江省HIV/AIDS 患者病情 相关性的研究

目的:比较黑龙江省HIV/AIDS患者与健康对照者(healthy controls,HCs)外周血CD4+CD25+FoxP3+调节性T细胞数量、免疫抑制功能的变化,探讨CD4+CD25+FoxP3+调节性T细胞在HIV/AIDS感染过程中的作用。方法:采用流式细胞仪检测21例HIV/AIDS患者及20例健康对照组的外周血CD4+CD25+FoxP3+调节性T细胞数量的百分比及绝对数量;采用共同培养方法检测HIV/AIDS患者外周血CD4+CD25+FoxP3+调节性T细胞免疫抑制功能的变化;实时荧光定量聚合酶链反应(RT-FQ-PCR)检测HIV/AIDS患者外周血CD4+CD25+FoxP3+调节性T细胞中FoxP3mRNA的表达。结果:黑龙江省HIV/AIDS患者外周血CD4+CD25+FoxP3+调节性T细胞比率明显高于HCs(P<0.01),而CD4+CD25+FoxP3+调节性T细胞的绝对计数显著下降,且与CD4+T细胞绝对计数成反比;混合淋巴细胞共同培养结果显示,HIV/AIDS患者外周血CD4+CD25+FoxP3+调节性T细胞的抑制功能无明显变化;HIV/AIDS患者外周血CD4+CD25+FoxP3+调节性T细胞的FoxP3 mRNA相对表达量无显著变化。结论:黑龙江省HIV/AIDS患者CD4+CD25+FoxP3+调节性T细胞的数量变化与病情相关。     

CD4＋CD25＋FoxP3＋调节性T细胞与黑龙江省HIV／AIDS患者病情相关性的研究

目的：比较黑龙江省H1V／AIDS患者与健康对照者（healthy controls,HCs）外周血cD4＋CD25＋F0xP3＋调节性T细胞数量、免疫抑制功能的变化,探讨CD4＋CD25＋FoxP3＋调节性T细胞在HIV／AIDS感染过程中的作用。方法：采用流式细胞仪检测21例HIV／AIDS患者及20例健康对照组的外周血CD4＋CD25＋FoxP3＋调节性T细胞数量的百分比及绝对数量;采用共同培养方法检测HIV／AIDS患者外周血cD4℃D25十FoxP3＋调节性T细胞免疫抑制功能的变化;实时荧光定量聚合酶链反应（RT-FQ-PCR）检测HIV／AIDS患者外周血CD4＋CD25＋FoxP3＋调节性T细胞中FoxP3mRNA的表达。结果：黑龙江省HIV／AIDS患者外周血CD4＋CD25下oxP3＋调节性T细胞比率明显高于HCs（P〈O．01）,而CD4-CD25＋FoxP3＋调节性T细胞的绝对计数显著下降,且与CD4＋T细胞绝对计数成反比;混合淋巴细胞共同培养结果显示,HIV／AIDS患者外周血CD4＋CD25＋FoxP3＋调节性T细胞的抑制功能无明显变化;HIV／AIDS患者外周血CD4＋CD25＋FoxP3＋调节性T细胞的FoxP3mRNA相对表达量无显著变化。结论：黑龙江省HIV／AIDS患者cD4℃D25＋FoxP3＋调节性T细胞的数量变化与病情相关。     

Endothelial cells promote human immunodeficiency virus replication in nondividing memory T cells via Nef-, Vpr-, and T-cell receptor-dependent activation of NFAT

Human endothelial cells (ECs) enhance human immunodeficiency virus (HIV) replication within CD4(+) memory T cells by 50,000-fold in a Nef-dependent manner. Here, we report that EC-mediated HIV type 1 replication is also dependent on an intact vpr gene. Moreover, we demonstrate that despite a requirement for engaging major histocompatibility complex (MHC) class II molecules and costimulators, EC-stimulated virus-producing cells (p24(high) T cells) do not proliferate, nor are they arrested in the cell cycle. Rather, they are minimally activated, sometimes expressing CD69 but not CD25, HLA-DR, VLA-1, or effector cytokines. Blocking antibodies to interleukin 2 (IL-2), IL-6, IL-7, or tumor necrosis factor do not inhibit viral replication. Cyclosporine effectively inhibits viral replication, as does disruption of the NFAT binding site in the viral long terminal repeat. Furthermore, in the presence of ECs, suboptimal T-cell receptor (TCR) stimulation with phytohemagglutinin L supports efficient viral replication, and suboptimal stimulation with toxic shock syndrome toxin 1 leads to viral replication selectively in the TCR-stimulated, Vbeta2-expressing T cells. Collectively, these data indicate that ECs provide signals that promote Nef- and Vpr-dependent HIV replication in memory T cells that have been minimally activated through their TCRs. Our studies suggest a mechanism for HIV replication in vivo within the reservoir of circulating memory CD4(+) T cells that persist despite antiretroviral therapy and further suggest that maintenance of immunological memory by MHC class II-expressing ECs via TCR signaling may contribute to HIV rebound following cessation of antiretroviral therapy.     

人类免疫缺陷病毒-1进入细胞的分子机制及相关药物的研究

艾滋病（AIDS）是由人类免疫缺陷病毒（HIV）侵染表达CD4表面抗原（CD4⁺）的T淋巴细胞而引起的.艾滋病病毒进入CD4⁺T淋巴细胞首先是通过病毒与细胞膜的融合来完成的.该融合过程涉及到病毒表面膜蛋白（gp120和gp41）与细胞表面受体蛋白（CD4和CCR5等）之间的相互作用.根据对这些蛋白质分子结构及作用机制的认识,从破坏病毒与细胞的融合入手,设计新型的抗艾滋药物及疫苗,已成为目前药物开发的新热点.     

The breakdown of the cytokine network subsequent to human immunodeficiency virus infection

The acquired immunodeflciency syndrome (AIDS) is a clinically multifaceted disease induced by infection with the human immunodeficiency virus (HIV). HIV infection results in a complex pattern of immunologic alterations that leads to the development of AIDS in the majority of HIV seropositive (HIV+) individuals. The reduction in CD4 T lymphocyte counts is the hallmark of HIV infection; nevertheless, long before the reduction in CD4 counts reaches critical levels, a series of profound and complex defects that impair the function of CD4 T lymphocytes can be detected. Thus, HIV infection is characterized by quantitative and qualitative defects affecting CD4 T lymphocytes. It was suggested recently that programmed cell death (PCD) is an important mechanism leading to CD4 depletion in HIV infection, and that susceptibility of peripheral lymphocytes to PCD is differentially regulated by diverse cytokines. Thus, type 1 cytokines would protect CD4 lymphocytes against PCD, whereas type 2 cytokines would not protect against, and could augment, PCD. We suggest that the qualitative alterations of the immune response provoke the CD4 depletion characteristic of HIV disease via type 2 cytokinemediated augmentation of PCD, and are therefore ultimately responsible for the progression of HIV infection. Finally, we summarize recent data showing that three correlates of disease progression: emergence of HIV strains with syncitium-inducing ability (SI), type 1-to-type 2 cytokine shift, and CD4 depletion, are significantly associated, suggesting a complex interconnected virologic-immunologic pathogenesis of HIV infection.     

Transactivation of human immunodeficiency virus promoter by human herpesvirus 6.

Patients with acquired immunodeficiency syndrome (AIDS) are often infected with a number of other heterologous viruses in addition to the initial human immunodeficiency virus (HIV) infection, and these agents could act as potential reactivating agents of latent HIV. A new antigenically distinct herpesvirus, designated human herpesvirus 6 (HHV-6), has recently been isolated from patients with AIDS and has been shown to infect a number of different human cells, specifically human T cells, B cells, and glial cells. Since these are some of the same cells that harbor the AIDS virus, it is quite important to determine any interaction between this new herpesvirus and HIV. In this report, we demonstrate that HHV-6 can trans-activate the HIV promoter in human T-cell lines as measured by the expression of the bacterial gene chloramphenicol acetyltransferase. This indicates that stimulation of HIV gene expression by HHV-6 could play a role in HIV pathogenesis.