C. Scheller

Parkinsonism in HIV dementia.

Summary. A great number of human immunodeficiency virus (HIV)-infected patients develop a central nervous system disorder, commonly called HIV dementia or AIDS dementia complex (ADC). HIV dementia is independent of opportunistic infections and is due to the virus itself. Symptoms include psychomotor slowing, apathy and motor disorders similar tothe bradykinesia and postural and gait abnormalities observed in late Parkinsons disease. Consequently, HIV has been discussed during the last few years as an additional cause for parkinsonism, and parkinsonian syndromes as manifestations of HIV dementia. Moreover, the early phase of HIV infection gains increasing interest because of studies which report subtle neurological symptoms at this stage. Accordingly, we found in SIV-infected monkeys that dopamine is reduced by 44% within as few as two months of infection, indicating that changes during early infection must be thoroughly evaluated. In this short review, we discuss alterations in the nigrostriatal dopaminergic system during early and late immunodeficiency virus infection and the common clinical and biochemical features shared by HIV dementia and Parkinsons disease.

Involvement of dopamine in the progression of AIDS Dementia Complex

Summary. HIV compromises immunological functions. Immune responses are regulated to a great extent by several molecules such as cytokines, neurotransmitters and hormones which interact with different immune effector cells and ultimately mediate the homeostatic responses to disease. Among these mediators, dopamine plays an important role. In this article we review AIDS Dementia Complex (ADC) and describe lines of evidence implying increased dopamine availability as a potent mediator of neurologic deficits in HIV infection and a factor exhibiting adverse effects on the progression of ADC.

Dopamine activates HIV in chronically infected T lymphoblasts.

Summary. HIV infection is associated with a marked vulnerability of the dopaminergic system. We found recently that dopaminergic substances increase brain pathology in the simian model of HIV infection. In the current study we used the chronically HIV-infected T-lymphoblasts ACH-2 to elucidate the effects of dopamine (DA) on HIV infection. Cells were exposed to various concentrations of DA for 24 hours. Flow cytometry measurements demonstrated that DA induced a concentration-dependent HIV activation. To study the mechanism of action of DA, cells were treated besides DA with glutathione, one of the main components of cellular defense mechanisms against oxidative stress as well as its indirect precursor N-acetylcysteine. Treatment with these antioxidants attenuated DA-induced-HIV activation indicating that changes in cellular redox states might have been the causative factor for the observed effect.Our data suggest that HIV activation is tightly linked to intracellular oxidant/antioxidant levels and that excessive DA exposure may modulate cellular vulnerability to HIV.

Macaque animal model for HIV-induced neurological disease

Summary. The pathogenesis of HIV-induced neurological disorders is still incompletely understood. Since many aspects of this disease are difficult to explore in humans, animal models are necessary to fill the gaps in our knowledge. Based on the high concordance with the human system, the SIV-infection of macaques currently provides the best animal model to study pathogenesis, therapy and prevention of HIV-infection. In this review, important features of the CNS-infection in this model are outlined. Recent virological, immunological, neurophysiological and neurochemical findings obtained with this animal model are presented and key factors in the development of neurological disease are identified.

Psychiatric complications in human immunodeficiency virus infection.

Human immunodeficiency virus (HIV) infection is associated with psychiatric complications, including cognitive impairment, affective disorders, and psychosis. These psychiatric complications impair quality of life, affect disease prognosis, and impede treatment by compromising medication adherence. They also increase the likelihood of HIV transmission, either directly or via their high prevalence rate among drug abusers. In this article, the authors provide a brief overview of the most common psychiatric complications associated with HIV infection and discuss the role of dopamine as a link between psychiatric manifestations and the progression of immunodeficiency infection.

Brain choline acetyltransferase reduction in SIV infection. An index of early dementia

HIV infection at late stages is associated with neurological complications including impaired motor and cognitive functions. We used simian immunodeficiency (SIV)-infected rhesus monkeys, an animal model of HIV infection, to investigate changes in choline acetyltransferase (ChAT) activity, a biochemical marker of cognitive function, in post-mortem brains during early, asymptomatic SIV infection and AIDS. ChAT activity was dramatically reduced in putamen and hippocampus already during asymptomatic infection. In animals with AIDS, ChAT activity was further decreased. The reduction of ChAT was not related to brain viral load or CNS pathological lesions. Our results demonstrate deficits in ChAT activity already during the first months of SIV infection and imply that cognitive dysfunction may occur early in immunodeficiency viral infections.

Monoamine oxidase inhibition and CNS immunodeficiency infection.

HIV invades CNS subcortical areas, particularly the dopamine-rich basal ganglia and induces a subcortical dementia. Data suggest that the basal ganglia dysfunction plays a critical role in the neuropsychiatric manifestation of HIV infection. Therefore, therapeutic approaches for HIV dementia nowadays wish to include apart from the highly active antiretroviral therapy (HAART) also adjunctive medication. In this short article, we report briefly on neurotoxicity associated with the immunodeficiency virus and discuss the effects of selegiline, a monoamine oxidase inhibitor which enhances dopamine availability in CNS on immunodeficiency virus-induced neurological disease.

Dopamine Is a Pathogenetic Factor in HIV-Induced Neuro-AIDS

During the first years of the AIDS pandemic caused by the human immunodeficiency virus (HIV), a progressive, dementing illness, later called simply Neuro-AIDS, AIDS dementia complex or HIV dementia was defined as one of the consequences of the viral brain infection (Navia et al., 1986a; Navia et al., 1986b). According to WHO report, December 2000, it is estimated that around 36 million people world wide are infected with HIV. One-third of them is expected to develop HIV-dementia. HIV is the leading cause of dementia in people less than 60 years of age (Janssen et al., 1992; McArthur et al., 1993).

Apoptosis inhibition in T cells triggers the expression of proinflammatory cytokines — implications for the CNS

Stimulation of death receptors such as CD95 or TNF-R1 results in rapid onset of apoptosis. Here we show that inhibition of death receptor-induced apoptosis by the broad range caspase inhibitor ZVAD causes a switch from apoptotic to proinflammatory signaling. In previous studies we have reported that caspase inhibitors induce expression of various proinflammatory cytokines in CD95-stimulated primary T cells, such as TNF-alpha, IFN-gamma and GM-CSF. In this study we provide further evidence for the proinflammatory activity of CD95. Stimulation of CD95 by agonistic antibodies (7C11) resulted in expression of IL-2 in primary T cells, which was further enhanced when caspase activity was blocked by ZVAD. Moreover, CD95 triggered expression of IL-4 and IL-8 when caspase activity was inhibited, but not in the absence of ZVAD. Our findings are of significant importance for the CNS as changes in the cytokine pattern in the periphery affects the entry of various immune cells into the brain. Moreover, invading activated T cells can also directly influence the cytokine profile within the brain, triggering signaling cascades that eventually lead to neuronal cell death. The use of caspase inhibitors to prevent apoptotic cell death should be carefully evaluated in the management of systemic and CNS diseases.

Biostatistical analysis of gene microarrays reveals diverse expression clusters between macaque subspecies in brain SIV infection

In this study we investigated differences in the gene expression profiling of the brains of rhesus macaques that were uninfected or infected with SIV in the asymptomatic stage or AIDS. The main aim was to use biostatistical methods to classify brain gene expression following SIV infection, without consideration of the biological significance of the individual genes. We also used data from animals treated with different pharmacological substances such as dopaminergic drugs, N-methyl-D-aspartate (NMDA) antagonists or antioxidants during the early stage of infection as these animals exhibited an accelerated or attenuated neuropsychiatric disease progression. We found macaque subspecies to be a more important factor for disease classification based on gene expression profiling than clinical symptoms or neuropathological findings. It is noteworthy that SIV-infected pharmacologically-treated. Chinese animals clustered near uninfected animals independent on the outcome of the treatment, whereas untreated SIV infected animals were clustered in a separate subtree. It is clear from this study that NeuroAIDS is a diverse disease entity and that SIV brain genes can be differentially regulated, depending on the disease type as well as changed dependent on the monkey subspecies.