Contents
Neuroprotective
Therapy for HIV Dementia Pp. 373-383
Jadwiga Turchan, Ned Sacktor,
Valerie Wojna, Katherine Conant and Avi
Nath
Is
HIV Involved in the Pathogenesis of Non-Infectious Pulmonary Complications in
Infected Patients? Pp. 385-393
Georgette D. Kanmogne, Ronald
C.Kennedy and Paula Grammas
Regulation
of TAK/P-TEFb in CD4+ T Lymphocytes and Macrophages Pp.395-404
Andrew P. Rice and Christine H. Herrmann
Role
of FAS in HIV Infection Pp. 405-417
Umberto Dianzani, Thea Bensi,
Andrea Savarino, Selina Sametti, Manuela Indelicato, Riccardo Mesturini and
Annalisa Chiocchetti
HIV-1
Vectors: Fulfillment of Expectations, Further Advancements, and Still A Way To
Go Pp. 419-439
Adam S. Cockrell and Tal Kafri
Use
of Fusion Proteins and Procaryotic Display Systems for Delivery of HIV-1
Antigens: Development of Novel Vaccines for HIV-1 Infection Pp. 441-446
Piergiuseppe De Berardinis, Rossella
Sartorius, Antonella Caivano, Dina Mascolo,Gonzalo J. Domingo, Giovanna Del
Pozzo, Muriel Gaubin, Richard N. Perham, Dominique Piatier-Tonneau and John Guardiola
Mother-to-Child
Transmission of HIV Infection and its Prevention Pp. 447-462
Claire Thorne and Marie-Louise Newell
Astrocyte
Infection by HIV-1: Mechanisms of Restricted Virus Replication, and Role in the
Pathogenesis of HIV-1-Associated Dementia Pp. 463-473
Paul R. Gorry, Chi Ong, Janine Thorpe, Sylvie Bannwarth, Katherine A. Thompson, Anne Gatignol, Steven L. Wesselingh and Damian F.J. Purcell
Abstracts
[Back to top] Neuroprotective
Therapy for HIV Dementia
Jadwiga Turchan, Ned Sacktor, Valerie Wojna, Katherine
Conant and Avi Nath
Despite the development and use of effective antiretroviral therapy, HIV dementia persists and has important socio-economic consequences. Significant progress has been made in our current understanding of the neuropathogenesis of HIV infection, and it is clear that adjunctive neuroprotective therapy in addition to antiretroviral therapy are necessary for prevention and treatment of this entity. In this manuscript, we discuss the rationale and the pathophysiological mechanisms that support the development of neuroprotective therapy for HIV dementia. We review all the placebo controlled clinical trials conducted to date with neuromodulatory/ neuroprotective therapy in patients with HIV dementia and discuss their outcomes. We also provide a thorough review of potential new treatments for HIV dementia based on the experimental literature. We hope that this manuscript will serve as an important guide for future approaches for clinical trials and drug development for patients with HIV dementia.
[Back to top] Is HIV
Involved in the Pathogenesis of Non-Infectious Pulmonary Complications in
Infected Patients?
Georgette D. Kanmogne, Ronald C.Kennedy and Paula Grammas
Pulmonary complications of AIDS are one of the major causes of morbidity and mortality in HIVinfected individuals, and are often direct indicators of enhanced progression to an AIDS-defining illness. HIV can be detected in the lung during asymptomatic disease, as well as during the advanced stages of AIDS. With prolonged survival of HIV-infected patients, non-infectious pulmonary complications are becoming more common and can lead to respiratory compromise and failure. The pathogenesis of non-infectious pulmonary complications, following HIV infection is not fully understood, and the role that HIV-induced immunosuppression plays in the development of these complications is not known. In this review, we will discuss non-infectious pulmonary complications of HIV infection, focusing on HIV-associated malignancies of the lung, inflammatory disorders, pulmonary hypertension and the effect of antiretroviral therapy on the incidence of these diseases. The possible role that HIV plays in the pathogenesis of these pulmonary disorders is also addressed.
[Back to top] Regulation of
TAK/P-TEFb in CD4+ T Lymphocytes and Macrophages
Andrew P. Rice and Christine H. Herrmann
HIV replication occurs principally in activated CD4+ T cells and macrophages. The HIV-1 Tat protein is essential for HIV replication and requires a cellular protein kinase activity termed TAK/P-TEFb, composed of CDK9 and cyclin T1, for its transactivation function. This article reviews recent work indicating that under some circumstances TAK/P-TEFb is likely to be limiting for HIV replication in CD4+ T cells and macrophages, and discusses mechanisms of regulation of the TAK/P-TEFb subunits in these cell types. In resting CD4+ T lymphocytes, TAK/P-TEFb function is low. Following lymphocyte activation, even under conditions of minimal activation in which activation markers and cellular proliferation are not induced, both CDK9 and cyclin T1 mRNA and protein levels are increased, leading to an induction of TAK/P-TEFb kinase activity that correlates with increased viral replication. In macrophages, regulation of TAK/P-TEFb involves mechanisms distinct from those in lymphocytes. In freshly isolated monocytes, CDK9 protein levels are high, while cyclin T1 protein levels are low to undetectable. Cyclin T1 protein expression is up-regulated during early macrophage differentiation by a mechanism that involves post-transcriptional regulation. Later during differentiation, cyclin T1 expression becomes shut off by a post-transcriptional mechanism, and this correlates with a decrease in Tat transactivation. Interestingly, cyclin T1 can be re-induced with lipopolysaccharide (LPS). These findings suggest that changes in cyclin T1 expression can influence HIV-1 replication levels in monocytes and macrophages. Important areas for future research on Tat and TAK/P-TEFb function are discussed.
[Back
to top] Role of FAS in HIV Infection
Umberto Dianzani, Thea Bensi, Andrea Savarino, Selina
Sametti, Manuela Indelicato, Riccardo Mesturini and Annalisa Chiocchetti
Direct cytopathic effects cannot explain the massive CD4+ T cell depletion in acquired immunodeficiency syndrome (AIDS) patients and several indirect mechanisms may be involved. A role has been proposed for apoptosis of uninfected lymphocytes, since lymphocytes from human immunodeficiency virus-1+ (HIV-1) individuals display increased levels of spontaneous apoptosis. This process may be ascribed in part to cell exhaustion by the chronic uncontrolled infection, but can also be directly induced by viral components, such as gp120, tat or nef. A key role is played by the death receptor Fas, but a role can also be played by other death receptors, such as the TNF and TRAIL receptors. By contrast, death of HIV-infected cells seems to be Fas-independent and driven by other viral components such as vpr and HIV proteases. A further role may be played by depletion of CD4+ T cell itself and hence the withdrawal of survival factors such as cytokines. Different ability of HIV strains to induce death of infected and uninfected cells might play a role in the clinical and biological differences displayed by HIV strains. A further variability may be ascribed to the intrinsic resistance of cells to apoptosis, which may depend on the individual genetic background or the use of drugs inhibiting apoptosis. The observation that when progression of HIV infection is slow due to “apoptosis-resistant” genetic backgrounds of the patients, or defective HIV-1 strains, or successful highly active antiretroviral therapy (HAART), generally also T cell apoptosis is low, suggests that HIV-infected subjects may benefit from therapies aimed to inhibit Fas function and/or spontaneous apoptosis.
[Back to top] HIV-1 Vectors: Fulfillment of Expectations, Further
Advancements, and Still A Way To Go
Adam S. Cockrell and Tal Kafri
The ability of lentiviral vectors to transduce and stably integrate their genomes into non-dividing cells was the major reason for the development of the HIV-1 based vector gene delivery system. The first VSVG pseudotyped lentiviral vectors fulfilled these expectations by ferrying large genetic payloads to nondividing cells in vitro and in vivo. Here we discuss advances in HIV-1 vector systems which lead to improvement in biosafety, transduction efficiency, longevity and regulation of transgene expression, and vector production. The successful use of the advanced HIV-1 based vector system opened new avenues in establishing transgenic animal models for basic research. Additionally, we describe accomplishments using HIV-1 based vectors to correct pathological courses of incurable diseases in preclinical animal models including Parkinson’s disease and b-thalassemia.
[Back to top] Use
of Fusion Proteins and Procaryotic Display Systems for Delivery of HIV-1
Antigens: Development of Novel Vaccines for
HIV-1 Infection
Piergiuseppe De Berardinis,
Rossella Sartorius, Antonella Caivano, Dina Mascolo,Gonzalo J. Domingo,
Giovanna Del Pozzo, Muriel Gaubin, Richard N. Perham, Dominique Piatier-Tonneau and John Guardiola
Two non-pathogenic scaffolds (represented by the filamentous bacteriophage fd and the dihydrolipoyl acetyltransferase E2 protein of the Bacillus stearothermophilus pyruvate dehydrogenase (PDH) complex) able to deliver human immunodeficiency virus (HIV)-1 antigenic determinants, were designed in our laboratories and investigated in controlled assay conditions. Based on a modification of the phage display technology, we developed an innovative concept for a safe and inexpensive vaccine in which conserved antigenic determinants of HIV-1 reverse transcriptase (RTase) were inserted into the N-terminal region of the major pVIII coat protein of bacteriophage fd virions. Analogously, we developed another antigen delivery system based on the E2 component from the PDH complex and capable of displaying large intact proteins on the surface of an icosahedral lattice. Our data show that both of these systems can deliver B and T epitopes to their respective presentation compartments in target cells and trigger a humoral response as well as a potent helper and cytolytic response in vitro and in vivo.
[Back to top] Mother-to-Child
Transmission of HIV Infection and its Prevention
Claire Thorne and Marie-Louise Newell
An estimated 800,000 children acquired HIV-infection in 2002, most as a result of mother-to-child transmission (MTCT), and vertically-acquired HIV infection continues to be of major public health importance. Prevention of MTCT is possible with a combination of interventions including antiretroviral therapy (ART) (usually in highly active combinations), elective caesarean section and avoidance of breastfeeding, and where infected women are identified before or in pregnancy and have access to these interventions, risk of MTCT is now below 1-2%. However, prompt identification of pregnant women with HIV infection remains pressing in many developed countries; additionally, concerns have arisen regarding adherence to complex treatment regimens in pregnancy and the potential impact of HIV drug resistance. More disturbingly, most HIV-infected women live in developing countries where many pregnant women even when tested do not return for their HIV results for a variety of reasons including stigma, and where most, if not all, strategies for prevention of MTCT have been of limited accessibility and/or feasibility. However, the Global Fund to Fight AIDS, Tuberculosis and Malaria, and other initiatives including pharmaceutical companies’ donation programmes and generic antiretroviral drug production have made prevention of MTCT in resource-poor settings an increasingly realistic goal, coupled with new evidence from clinical trials on the efficacy of abbreviated regimens of antiretroviral prophylaxis, including combination therapy, to prevent MTCT. Research is additionally focussing on reducing the risk of postnatal transmission through breastfeeding, with exclusive breastfeeding, early cessation and antiretroviral prophylaxis to breastfeeding women or breastfed infants under investigation. However, the key to prevention of paediatric HIV infections is adequate prevention of infection in women of reproductive age.
[Back to top] Astrocyte Infection by
HIV-1: Mechanisms of Restricted Virus Replication, and Role in the Pathogenesis
of HIV-1-Associated Dementia
Paul R. Gorry, Chi Ong, Janine Thorpe, Sylvie Bannwarth, Katherine A. Thompson, Anne Gatignol, Steven L. Wesselingh and Damian F.J. Purcell
Astrocytes are the most numerous cell type in the brain, and their physiological roles are essential for normal brain function. Studies of post-mortem brain tissue samples from individuals with AIDS have revealed that a small proportion of astrocytes are infected by HIV-1 which is linked to the development of HIVassociated dementia (HIVD), a frequent clinical manifestation of HIV-1 disease affecting up to 20% of infected adults. However, astrocyte infection by HIV-1 in vivo is generally non-productive, and can only be readily detected by sensitive techniques that detect HIV-1 RNA or proviral DNA. Similarly, primary astrocyte cultures and astrocytic cell lines can be permissive to infection by HIV-1 strains, but are refractory to efficient HIV-1 expression. In efforts to delineate the molecular mechanisms underlying the “restricted” infection, several studies have demonstrated that efficient HIV-1 replication is blocked in astrocytes at different steps of the virus life cycle, including virus entry, reverse transcription, nucleocytoplasmic HIV-1 RNA transport, translation of viral RNA, and maturation of progeny virions. However, the relative importance of each of these possible replication blocks in restricting HIV-1 replication in astrocytes is unclear. Moreover, how restricted astrocyte infection contributes to the development of HIVD is unknown. This review surveys the current in vitro models of restricted HIV-1 replication in astrocytes, and provides an analysis of the available evidence supporting a role for astrocyte infection in the pathogenesis of HIVD. A greater understanding of the fate of HIV-1 in astrocytes may assist in the identification of viral reservoirs in the central nervous system, novel therapies for the treatment of HIVD, and also novel strategies to suppress HIV-1 replication in CD4+ cells of the immune system.