Cytopathologic and neurochemical correlates of progression to motor/cognitive impairment in SIV-infected rhesus monkeys.

Neurochemical, pathologic, virologic, and histochemical correlates of simian immunodeficiency virus (SIV)-associated central nervous system (CNS) dysfunction were assessed serially or at necropsy in rhesus monkeys that exhibited motor and cognitive deficits after SIV infection. Some infected monkeys presented with signs of acquired immunodeficiency disease (AIDS) at the time of sacrifice. Seven of eight animals exhibited motor skill impairment which was associated with elevated quinolinic acid in cerebrospinal fluid (CSF). Examination of the brains revealed diffuse increases in glial fibrillary acidic protein immunoreactivity in cerebral cortex in all animals, regardless of evidence of immunodeficiency disease. Reactive astrogliosis preceded or was coincident with the onset of neuropsychological impairments. Virus rescue from CSF of six of eight infected animals showed that one of three animals with AIDS and none of three animals without AIDS at necropsy had virus rescue-positive CSF. Multinucleated giant cells were seen in the brain of only one animal with end-stage AIDS and high systemic virus burden at death. Neither systemic nor CNS virus burden was associated with the onset of CNS dysfunction. SIV-associated motor/cognitive impairment is associated with subtle, widespread changes in CNS cytology and neurochemistry, rather than with large increases in brain virus burden or widespread virus-associated brain lesions.

CD4(81-92)-based peptide derivatives. Structural requirements for blockade of HIV infection, blockade of HIV-induced syncytium formation, and virostatic activity in vitro.

CD4(81-92) peptide block human immunodeficiency virus (HIV) infection, virus-induced cell fusion, and antigen production by HIV-1-infected cells when derivatized on specific amino acid residues. An extensive series of structural variants of 1,4,5-tribenzyl-10-acetyl-CD4(81-92) were tested as anti-viral agents in an attempt to define the sequence and derivatization requirements for antiviral activity, and to maximize potency and stability for use as potential therapeutic agents. Alteration of the primary amino acid sequence of the stem compound 1,4,5-tribenzyl-CD4(81-92) diminished or abolished in parallel all three indices of anti-viral activity in a series of altered sequence compounds. Replacement of d- for l-amino acid residues at positions 1, 2, 3, 4, 5, or 6 but not position 10 decreased anti-viral potency, again with parallel effects on infection, synctium formation, and virostatic activity. Omission of the glutamine residue at position 9 did not affect anti-viral potency, while removal of the glutamic acids at position 11 and 12 resulted in virtually complete loss of biological activity. Changes in the derivatization pattern of the CD4(81-92) peptide backbone also affected anti-viral potency and efficacy. Optimal activity was obtained with benzyl residues at positions 1, 4, and 5, whereas the 1,4,7-tribenzyl-CD4(81-92) compound was without activity in all assays tested. Replacement of one of the benzyl groups with an acetamidomethyl moiety resulted in complete loss of biological activity. The previously reported (Nara et al., Proc Natl Acad Sci USA 86: 7139-7143, 1989) virostatic activity of 1,4,5-tribenzyl-10-acetyl-CD4(81-92) (peptide #18) is apparently due to acetylation, since the desacetyl stem compound shows much less virostatic activity while still possessing full anti-infective and anti-syncytial activity, and acetylation of the N-terminus rather than the lysine of 1,4,5-tribenzyl-CD4(81-92) yields a virostatic compound equipotent to peptide #18. Cyclization of the tribenzyl peptide to further conformationally restrict the molecule resulted in a compound with anti-infection, anti-syncytial, and virostatic activity at submicromolar concentrations.

Cognitive and motor impairments associated with SIV infection in rhesus monkeys.

Cognitive and motor deficits are now recognized as significant clinical features of infection with the human immunodeficiency virus (HIV). Juvenile rhesus macaques infected with simian immunodeficiency virus (SIV) were found to exhibit cognitive and motor deficits characteristic of HIV infection. Impairment on a motor skill task was the most reliable indicator of infection. Various cognitive impairments were also evident. These deficits were related to SIV infection of the brain but not to inflammatory lesions at a particular locus. The results suggest that the SIV-infected rhesus macaque is a valuable model for understanding the cause of HIV-associated central nervous system dysfunction and for developing a treatment.

[Rapid determination of antibiotics resistance in clinico-surgical practice on the basis of radioactive carbon dioxide measurements]. / Schnellbestimmung der Antibiotikum-Resistenz in der chirurgisch-klinischen Praxis auf Grund der Messung von radioaktivem Kohlendioxyd.

The radiometric method is founded on the measurement of the 14CO2 which has gone free. This method was worked out of our team. It is a prompt sensitive and quantitative procedure for the control of antibiotic effect on bacteria. The method is a support in critical clinical situations. The prompt establishment of the antibiotic sensitivity can be live-saving. The empirics descended from 312 surgical patients. The antibiotical sensitivity of secretion samples is to be obtained within 4-6 hours. The results show in comparison with the classic bacteriological examinations five per cent less deviation. At the same time the computer analysis enables a finer distinction. 22 variable findings are possible within the categories: sensible, middling sensible and resistant. In that way the tested antibiotics are classified in an order of rank. The apparatus for the examination is producible without particular expenses. The measurements can be carried out at each hospital or clinical laboratory.