Enhancement of human papillomavirus (HPV) type 16 E6 and E7-specific T-cell immunity in healthy volunteers through vaccination with TA-CIN, an HPV16 L2E7E6 fusion protein vaccine.

TA-CIN is a vaccine that comprises the human papillomavirus (HPV) type 16 L2, E6 and E7 as a single fusion protein. In a mouse model, TA-CIN effectively prevented outgrowth of HPV16-positive tumour cells. To assess the safety and immunogenicity of TA-CIN, a dose escalating (26, 128, 533 micro g), double blind and placebo-controlled phase I study was conducted in 40 healthy volunteers. TA-CIN was administered without adjuvant by intramuscular injection on weeks 0, 4 and 8. No serious adverse events of the vaccination were reported during the study. Both IgG antibodies and proliferative responses against TA-CIN were elicited at all three doses. More importantly, T-cell immunity against the HPV16 E6 and E7 oncoproteins was detected by IFN gamma ELISPOT in 8/11 evaluable subjects vaccinated with the 533 micro g dose.

A genetically inactivated herpes simplex virus type 2 (HSV-2) vaccine provides effective protection against primary and recurrent HSV-2 disease.

A glycoprotein H (gH)-deleted herpes simplex virus type 2 (HSV-2) was evaluated as a vaccine for the prevention of HSV-induced disease. This virus, which we term a DISC (disabled infectious single cycle) virus, can only complete one replication cycle in normal cells and should thus be safe yet still able to stimulate broad humoral and cell-mediated antiviral immune responses. A gH-deleted HSV-2 virus that has been tested as a vaccine in the guinea pig model of recurrent HSV-2 infection was constructed. Animals vaccinated with DISC HSV-2 showed complete protection against primary HSV-2-induced disease, even when challenged 6 months after vaccination. In addition, the animals were almost completely protected against recurrent disease. Even at low vaccination doses, there was a high degree of protection against primary disease. A reduction in recurrent disease symptoms was also observed following therapeutic vaccination of animals already infected with wild type HSV-2.

Detection of lymphocyte Fc gamma receptor-blocking factors by the EA rosette inhibition assay. Refinement of the conventional method and development of a novel flow-cytometric assay.

Serum factors which interact with human peripheral blood lymphocyte Fc gamma receptors (Fc gamma Rs) may be detected in vitro by the EA rosette inhibition assay (EARIA). This assay has been used to detect circulating immune complexes and certain alloantibodies directed against cell surface antigens situated in close proximity to Fc gamma Rs. Three main types of FcR-blocking factor have been demonstrated by the EARIA in human serum following exposure to alloantigens. A strong correlation was observed between the presence of one of these FcR-blocking factors (FcBF1) and human renal allograft survival. This factor was previously shown to bind preferentially to CD32+ B cells and to inhibit antibody synthesis. In this study we have shown that detection of FcBF1 by the EARIA depends on the type of erythrocyte and on the amount of antibody used to sensitise the erythrocytes. Furthermore, we have developed a flow-cytometric version of the EARIA which is rapid, reproducible and, most importantly, objective. Inter-laboratory comparisons using this standardised EARIA should now be possible.