William D. Flitter

Preventive actions of a synthetic antioxidant in a novel animal model of AIDS dementia

Accumulating evidence indicates that the mechanism for causing AIDS dementia complex (ADC) involves the release of damaging inflammatory-related agents by HIV-infected microglia in the brain resulting in CNS oxidative damage. One such agent, tumor necrosis factor alpha (TNF-alpha) is consistently elevated in the brains of ADC patients compared to non-demented HIV patients. To model this aspect of ADC in rats, chronic ventricular infusions of TNF-alpha were given and found to induce several aspects of ADC, including weight loss, learning/memory impairment, enlarged lateral ventricles, and increased apoptosis. Concurrent oral treatment with the antioxidant CPI-1189 prevented all of these TNF-alpha induced effects. The results support TNF-alpha as a key toxic agent in ADC and provide the first in vivo evidence that chronic treatment with a synthetic antioxidant may protect HIV-infected patients against ADC. Our findings may also have implications in other neurological diseases where brain TNF-alpha levels are elevated and inflammation/oxidative stress is suspected to be a contributing cause, such as Alzheimers disease and Parkinsons disease.

CPI-1189 attenuates effects of suspected neurotoxins associated with AIDS dementia: A possible role for ERK activation

Individuals infected with the human immunodeficiency virus (HIV) often experience a dementia characterized by mental slowing and memory loss. Motor dysfunction may also accompany this condition. The pathogenesis of the dementia is not known, but microscopic examination of brain tissue from those afflicted shows evidence of chronic inflammation, reactive gliosis and cell death. Neurotoxic factors produced from activated macrophage or microglial cells such as tumor necrosis factor-alpha (TNFalpha), gp120 and quinolinic acid have been implicated as agents for the cell death which often appears to occur by an apoptotic mechanism. CPI-1189, a drug currently undergoing clinical evaluation as a treatment for the dementia associated with AIDS, is shown in this paper to mitigate apoptosis induced by TNFalpha, gp120, and necrosis induced by quinolinic acid. In addition, CPI-1189 mitigates the cell death produced by supernatants from cultured macrophages obtained from patients with AIDS dementia. The exact mechanism by which CPI-1189 prevents neurotoxicity is not known; however, protection from TNFalpha and supernatant-induced toxicity does not appear to involve NFkappaB translocation, and appears to be associated with an increase in activated ERK-MAP kinase. These findings may have implications for other neurological diseases where apoptotic cell death contributes to neurodegeneration.

CPI-1189 prevents apoptosis and reduces glial fibrillary acidic protein immunostaining in a TNF-α infusion model for AIDS dementia complex

AIDS dementia complex (ADC) is characterized by increased apoptosis, gliosis, and oxidative stress in the CNS, as well as a compromised blood-brain barrier. TNF-alpha has been shown to be elevated in AIDS dementia complex brains and may contribute to AIDS dementia complex. To model elevated TNF-alpha in AIDS dementia complex, TNF-alpha was infused ICV bilaterally into rats for 3 days. TNF-alpha treatment increased apoptosis around the infusion site and selectively in the septum and corpus callosum. Co-administration of the synthetic antioxidant CPI-1189 prevented TNF-alpha induced apoptosis. Both TNF-alpha and CPI-1189 treatment suppressed glial fibrillary acidic protein (GFAP) staining at the infusion site. TNF-alpha did not significantly affect the integrity of the blood-brain barrier, but CPI-1189 treatment increased blood-brain barrier integrity at the infusion site. No effect of TNF-alpha or CPI-1189 treatment was found on measures of oxidative stress. These results support TNF-alpha as a key agent for increasing apoptosis in AIDS dementia complex. Additionally, CPI-1189 treatment may protect against TNF-alpha induced apoptosis and astrogliosis in AIDS dementia complex. Lastly, the toxic effect of TNF-alpha and the protective effect of CPI-1189 may not be mediated primarily through manipulation of classic reactive oxygen species.