Jacque Mitchen

DNA fluorometric assay in 96-well tissue culture plates using Hoechst 33258 after cell lysis by freezing in distilled water

A simple assay is described using bisbenzimidazole (Hoechst 33258) to determine cellular DNA content in 96-well tissue cultures plates. At time points of interest, the plates are emptied of media and stored frozen. When the assay is to be performed, cultures are briefly incubated in distilled water and frozen again. This process lyses the cells and allows rapid and thorough mixing of the fluorochrome and cellular DNA. Freezing permits convenient storage of cultures until the time of assay. Experiments can be batched, further reducing processing time and giving better intra- and interexperimental standardization. The assay generates a linear standard curve for DNA fluorescence versus cell number, the range of which is appropriate for microculture wells. This enables the rapid and accurate measurement of cell number involving minimal processing time, making this assay well suited for cell proliferation studies.

Repeated Low-Dose Mucosal Simian Immunodeficiency Virus SIVmac239 Challenge Results in the Same Viral and Immunological Kinetics as High-Dose Challenge: a Model for the Evaluation of Vaccine Efficacy in Nonhuman Primates

ABSTRACT Simian immunodeficiency virus (SIV) challenge of rhesus macaques provides a relevant model for the assessment of human immunodeficiency virus (HIV) vaccine strategies. To ensure that all macaques become infected, the vaccinees and controls are exposed to large doses of pathogenic SIV. These nonphysiological high-dose challenges may adversely affect vaccine evaluation by overwhelming potentially efficacious vaccine responses. To determine whether a more physiologically relevant low-dose challenge can initiate infection and cause disease in Indian rhesus macaques, we used a repeated low-dose challenge strategy designed to reduce the viral inoculum to more physiologically relevant doses. In an attempt to more closely mimic challenge with HIV, we administered repeated mucosal challenges with 30, 300, and 3,000 50% tissue culture infective doses (TCID50) of pathogenic SIVmac239 to six animals in three groups. Infection was assessed by sensitive quantitative reverse transcription-PCR and was achieved following a mean of 8, 5.5, and 1 challenge(s) in the 30, 300, and 3,000 TCID50 groups, respectively. Mortality, humoral immune responses, and peak plasma viral kinetics were similar in five of six animals, regardless of challenge dose. Interestingly, macaques challenged with lower doses of SIVmac239 developed broad T-cell immune responses as assessed by ELISPOT assay. This low-dose repeated challenge may be a valuable tool in the evaluation of potential vaccine regimes and offers a more physiologically relevant regimen for pathogenic SIVmac239 challenge experiments.

Definition of Five New Simian Immunodeficiency Virus Cytotoxic T-Lymphocyte Epitopes and Their Restricting Major Histocompatibility Complex Class I Molecules: Evidence for an Influence on Disease Progression

ABSTRACT Simian immunodeficiency virus (SIV) infection of the rhesus macaque is currently the best animal model for AIDS vaccine development. One limitation of this model, however, has been the small number of cytotoxic T-lymphocyte (CTL) epitopes and restricting major histocompatibility complex (MHC) class I molecules available for investigating virus-specific CTL responses. To identify new MHC class I-restricted CTL epitopes, we infected five members of a family of MHC-defined rhesus macaques intravenously with SIV. Five new CTL epitopes bound by four different MHC class I molecules were defined. These included two Env epitopes bound by Mamu-A*11 and -B*03 and three Nef epitopes bound by Mamu-B*03, -B*04, and -B*17. All four restricting MHC class I molecules were encoded on only two haplotypes (b or c). Interestingly, resistance to disease progression within this family appeared to be associated with the inheritance of one or both of these MHC class I haplotypes. Two individuals that inherited haplotypes b and cseparately survived for 299 and 511 days, respectively, while another individual that inherited both haplotypes survived for 889 days. In contrast, two MHC class I-identical individuals that did not inherit either haplotype rapidly progressed to disease (survived <80 days). Since all five offspring were identical at their Mamu-DRBloci, MHC class II differences are unlikely to account for their patterns of disease progression. These results double the number of SIV CTL epitopes defined in rhesus macaques and provide evidence that allelic differences at the MHC class I loci may influence rates of disease progression among AIDS virus-infected individuals.

Determinants of disease in the simian immunodeficiency virus-infected rhesus macaque: characterizing animals with low antibody responses and rapid progression

Clinical and laboratory markers of simian immunodeficiency virus (SIV) infection were studied during the first 3 months after intravenous inoculation of rhesus macaques. Virus-binding serum antibody titres were correlated strongly with disease progression (P < 0.005) and were predictive of disease outcome by 7 weeks after inoculation. Low virus-binding serum antibody responses to SIV occurred in animals that also showed acute depletion of circulating CD20+ B cells. Acute damage to the CD4+ T cell and CD20+ B cell populations rendered some animals incapable of mounting virus-specific antibody responses and these macaques became the rapidly progressing cases comprising approximately 20-30% of infected animal cohorts.

Rapid and slow progressors differ by a single MHC class I haplotype in a family of MHC-defined rhesus macaques infected with SIV

Highly polymorphic HLA class I molecules may influence rates of disease progression of HIV-infected individuals. Recent evidence suggests that individuals who mount vigorous CTL responses to multiple HIV-1 epitopes have reduced viral loads, and survive longer than individuals that make a less robust or less diverse CTL response. It has been difficult, however, to define associations between particular HLA class I alleles and rates of disease progression. This may be due, in part, to the uncontrolled variables associated with naturally acquired HIV infections. Studies using MHC-defined, non-human primates infected with well characterized viral stocks should help to clarify this relationship. To explore the possibility that MHC class I polymorphism can influence disease progression, we infected four Mamu-DRB-identical individuals from a family of MHC-defined rhesus macaques intravenously with 40 TCID50SIVmac239. Two of these macaques developed severe wasting and were euthanized within 80 days of infection, while the other two survived for more than 400 days without showing any symptoms of disease. Since all four of these macaques were Mamu-DRB-identical, we were able to exclude the MHC class II DRB loci as determinant of disease progression. Interestingly, both of the slow progressors made CTL responses to the same three SIV CTL epitopes, which were restricted by two molecules (Mamu-B*03 and B*04) encoded by their common maternal haplotype. The two rapid progressors did not share this haplotype with the slow progressors, and we were unable to detect CTL responses in these two siblings. These observations implicate products of the Mamu-B*03 and B*04 alleles in resistance to disease progression in this family of SIV-infected macaques, and provide additional evidence that certain MHC class I-restricted CTL responses may play a significant role in delaying the onset of AIDS.

Gammadelta T cell receptor repertoire in blood and colonic mucosa of rhesus macaques.

Although their precise roles are not well defined, γδ T lymphocytes are recognized as regular components of immune responses. These cells express a limited T cell receptor repertoire and they can be stimulated by soluble ligands without conventional processing and presentation by major histocompatibility antigens. Progress in this area has been limited by the substantial differences between murine and human γδ T cells and the lack of knowledge about these cells in nonhuman primates. We used molecular analysis of T cell receptor diversity to characterize γδ T cell populations from peripheral blood and colon of rhesus macaques (Macaca mulatta). The γδ T cell receptor diversity was limited and distinct for these tissue compartments, particularly in the TCRGV2 family. Furthermore, the TCRDV1+ subset of peripheral blood γδ T cells showed signs of progressive oligoclonalization as a function of age. Similar observations have been reported for human tissue samples and our results validate rhesus macaques as an appropriate animal model for studying primate γδ T cell populations.

Importance of the CD3 marker for evaluating changes in rhesus macaque CD4/CD8 T-cell ratios

BACKGROUND Until recently, there were no CD3 antibodies that crossreacted with rhesus macaque T cells. Consequently, studies relying on CD8 counts or CD4/CD8 ratios enumerated this subpopulation on the basis of CD8+ or CD8bright+ staining. We used a rhesus-specific, anti-CD3 antibody to better define the CD8+ T-cell population, and to show the effects of better measurements on CD4/CD8 ratios and changes in T cells as macaques age. METHODS We used three-color flow cytometry to measure CD4 and CD8 populations with and without CD3 costaining. Venous blood samples were obtained from 52 colony-bred macaques between 2 months and 9 years of age. RESULTS The CD8+ T cells defined by CD3 and CD8 double staining were approximately 60% of all cells that were stained by CD8 alone. Improved detection of this lymphocyte subset showed that CD4/CD8 ratios were close to the range of 1.5-2.0. Declining CD4/CD8 ratios during aging are predominantly due to decreasing CD4+ T-cell counts. CONCLUSIONS Better quantitation of the CD8+ T-cell population showed that the CD4/CD8 ratio was not inverted as had been reported, but is actually very similar to the values observed in human beings. Although the two species differ in the pattern of CD8 expression, the general immune system characteristics are very similar.

Use of a DNA microfluorometric assay to measure proliferative response of mink lung cells to purified TGFβ and to TGFβ activity found in prostate cell conditioned medium

SummaryThe proliferative response of Mv1Lu cells to purified TGFβ1, or TGFβ-like activity released by various cells into medium conditioned over a 24-h period was quantitated by adapting a rapid DNA fluorometric assay. Acid activation of the conditioned medium allowed the amount of biologically latent versus active TGFβ to be quantitated.A neutralizing antibody specific for TGFβ1, 1.2, and 2.0 completely blocked the growth inhibition observed treating Mv1Lu cells with either purified TGFβ1 or medium containcing secreted TGFβ-like activity conditioned by DU145 prostate cells.In contrast to other assays commonly used to measure TGFβ activity, the proliferative response is related directly to DNA content rather than as a reflection of enzymatic activity or incorporation of3H-thymidine. The necessity for radioactive isotope usage has been eliminated, and the biological response can be quantitated over a period of days.