Massive activation of immune cells with an intact T cell repertoire in acute human immunodeficiency virus syndrome

In 8 patients with symptomatic, acute primary infection with human immunodeficiency virus (HIV), a dramatic and persistent decrease in CD4(+) lymphocytes was seen, accompanied by a marked increase in activated/memory CD8(+) T cells (CD38(+), CD45R0(+), HLA-DR(+), with high amounts of cell adhesion molecules), which represented most circulating lymphocytes, but no gross alterations in vp T cell repertoire. Extremely high plasma levels of proinflammatory cytokines were observed. Three patients were followed for 2-3 years: The number of CD4(+) cells, extremely low at first, increased significantly in a few months but decreased rapidly after a short stable period. Cytotoxic T lymphocytes bearing markers of immunologic activation/memory could play an important role in the earliest phases of the disease. It remains to be established how such a dramatic onset could determine the rapid progression of the infection that seems characteristic of patients with acute HIV syndrome

Lack of selective V beta deletion in CD4+ or CD8+ T lymphocytes and functional integrity of T-cell repertoire during acute HIV syndrome

Objective: To study the V beta T-cell repertoire in peripheral blood lymphocytes (PBL) during acute HIV syndrome by using several anti-V beta monoclonal antibodies (MAb) and to analyse its functionality by stimulating PBL with superantigens (SAg) such as Staphylococcus aureus enterotoxins. Methods: Cytofluorimetric analysis of V beta T-cell-receptor expression was performed on PBL from eight patients with symptomatic, acute HIV-1 primary infection, showing a dramatic decrease of CD4+ PBL accompanied by a marked increase in activated/memory CD8+ T cells, and on 12 age- and sex-matched healthy controls. PBL were then isolated, stimulated with different SAg, anti-CD3 MAb or phytohaemagglutinin and cultured for 3 days. PBL capability to progress through cell cycle was studied by the classic cytofluorimetric method of bromodeoxyuridine incorporation and DNA staining with propidium iodide. Results: Despite the presence of a few expansions of some V beta families among CD8+ T lymphocytes, no gross alterations in T-cell repertoire were present in patients with acute HIV syndrome. Its functionality was maintained overall, as PBL responsiveness to SAg was well preserved. Interestingly, all CD8+ T cells, although bearing different V beta T-cell receptors, expressed marked signs of activation, i.e., CD45R0, CD38 and major histocompatibility complex class II molecules, and also high amounts of CD11a and CD18. Conclusions: Our data suggest, at least in the early phases and in the acute form of the infection, that HIV is not likely to act as a SAg. However, further studies are needed to analyse other sites, such as lymph nodes, where HIV could exert other, significant effects, and to study the expression of other V beta families than those investigated here

Evaluation of single versus multiple cryogen spray cooling spurts on in vitro model human skin.

Many commercially available dermatologic lasers utilize cryogen spray cooling for epidermal protection. A previous tissue culture study demonstrated that single cryogen spurts (SCS) of 80 ms or less were unlikely to cause cryo-injury in light-skinned individuals. More recently, multiple cryogen spurts (MCS) have been incorporated into commercial devices, but the effects of MCS have not been evaluated. The aim was to study an in vitro tissue culture model and the epidermal and dermal effects of SCS vs patterns of shorter MCS with the same preset total cryogen delivery time (Deltat(c)) and provide an explanation for noted differences. Four different spurt patterns were evaluated: SCS: one 40-ms cryogen spurt; MCS2: two 20-ms cryogen spurts; MCS4: four 10-ms cryogen spurts; MCS8: eight 5-ms cryogen spurts. Actual Deltat(c) and total cooling time (Deltat(Total)) were measured for each spurt pattern. RAFT tissue culture specimens were exposed to cryogen spurt patterns and biopsies were taken immediately and at days 3 and 7. Actual Deltat(c) was increased while Deltat(Total) remained relatively constant as the preset Deltat(c) of 40 ms was delivered as shorter MCS. Progressively more epidermal damage was noted with exposure to the MCS patterns. No dermal injury was noted with either SCS or MCS. For a constant preset Deltat(c) of 40 ms, delivering cryogen in patterns of shorter MCS increased the actual Deltat(c) and consequently the observed epidermal cryo-injury as compared to an SCS

Evaluation of single versus multiple cryogen spray cooling spurts on in vitro model human skin.

Many commercially available dermatologic lasers utilize cryogen spray cooling for epidermal protection. A previous tissue culture study demonstrated that single cryogen spurts (SCS) of 80 ms or less were unlikely to cause cryo-injury in light-skinned individuals. More recently, multiple cryogen spurts (MCS) have been incorporated into commercial devices, but the effects of MCS have not been evaluated. The aim was to study an in vitro tissue culture model and the epidermal and dermal effects of SCS vs patterns of shorter MCS with the same preset total cryogen delivery time (Deltat(c)) and provide an explanation for noted differences. Four different spurt patterns were evaluated: SCS: one 40-ms cryogen spurt; MCS2: two 20-ms cryogen spurts; MCS4: four 10-ms cryogen spurts; MCS8: eight 5-ms cryogen spurts. Actual Deltat(c) and total cooling time (Deltat(Total)) were measured for each spurt pattern. RAFT tissue culture specimens were exposed to cryogen spurt patterns and biopsies were taken immediately and at days 3 and 7. Actual Deltat(c) was increased while Deltat(Total) remained relatively constant as the preset Deltat(c) of 40 ms was delivered as shorter MCS. Progressively more epidermal damage was noted with exposure to the MCS patterns. No dermal injury was noted with either SCS or MCS. For a constant preset Deltat(c) of 40 ms, delivering cryogen in patterns of shorter MCS increased the actual Deltat(c) and consequently the observed epidermal cryo-injury as compared to an SCS