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Oral human papillomavirus (HPV) infection is a cause of oropharyngeal cancer. We investigated whether sexual behaviors that elevated the odds of oropharyngeal cancer developing in a case-control study similarly elevated the odds of oral HPV infection developing among control patients. HPV infection was detected in 4.8% of 332 control patients from an outpatient clinic and in 2.9% of 210 college-aged men (age range, 18–23 years). Among control patients, the odds of infection developing independently increased with increases in the lifetime number of oral (P=.007, for trend) or vaginal sex partners (P=.003, for trend). Among college-aged men, the odds of oral HPV infection developing increased with increases in the number of recent oral sex partners (P=.046, for trend) or open-mouthed kissing partners (P=.023, for trend) but not vaginal sex partners. Oral sex and open-mouthed kissing are associated with the development of oral HPV infection

A multiple antigen peptide (MAP) malaria vaccine containing minimal Plasmodium falciparum circumsporozoite protein repeat epitopes was assessed for safety and immunogenicity in volunteers of known class II genotypes. The MAP/alum/QS-21 vaccine formulation elicited high levels of parasite-specific antibodies in 10 of 12 volunteers expressing DQB1*0603, DRB1*0401, or DRB1*1101 class II molecules. In contrast, volunteers of other HLA genotypes were low responders or nonresponders. A second study of 7 volunteers confirmed the correlation of class II genotype and high responder phenotype. This is the first demonstration in humans that a peptide vaccine containing minimal T and B cell epitopes composed of only 5 amino acids (N, A, V, D, and P) can elicit antibody titers comparable to multiple exposures to irradiated P. falciparum—infected mosquitoes. Moreover, the high-responder phenotypes were predicted by analysis of peptide/HLA interactions in vitro, thus facilitating the rational design of epitope-based peptide vaccines for malaria, as well as for other pathogens.

We tested the clinical reactions to a synthetic, Plasmodium falciparum, circumsporozoite multiple antigen peptide (MAP) vaccine in 39 volunteers immunized two to three times over 2–8 months using a dose escalation design. Immediate pain at the injection site was associated with the adjuvant QS-21 ( P<0.001), and delayed local inflammatory reactions were associated with high-titered circulating IgG anti-MAP antibody ( P=0.03). Because two volunteers developed acute, systemic urticaria after the third immunization associated with development of serum IgE MAP antibody, we employed immediate-type hypersensitivity skin tests (ITH-STs) using intradermal injections of diluted MAP vaccine to identify persons sensitized to the vaccine. ITH-STs were negative in seven volunteers tested 27 days after the first vaccination, but six of these individuals developed positive wheal and flare reactions when tested 14 or 83 days after the second vaccination; IgE MAP antibody was detected in only one of them. Another cohort of 16 volunteers, including the 2 allergic individuals, were ITH-ST negative when first tested late after their second or third vaccination at 6–7 months. Five of five non-immunized persons were also ITH-ST negative. ITH-STs may help identify individuals sensitized to malaria peptides and at potential risk of developing systemic allergic reactions after re-vaccination.

An aluminum hydroxide ( alum)-adsorbed, purified, botulinum F toxoid (Bot F) vaccine was manufactured to be administered as a stand-alone monovalent vaccine or to be added to the current botulinum pentavalent toxoid vaccine to make a hexavalent vaccine. We conducted a phase II trial of the Bot F vaccine over 3 years in 144 healthy adult volunteers to identify one of three vaccination schedules that was safe and maximally immunogenic for adult volunteers. We vaccinated 116 volunteers 1–3 times with Bot vaccine, and 28 volunteers 1–3 times with a licensed, alum-adsorbed hepatitis B vaccine (Engerix-B) as a reaction control group. After 1 year, 42 Bot volunteers with low, mouse anti-toxin titers (<0.10 IU/ml) received a booster injection and were followed for an additional year. The Bot vaccine inoculated three times over 28–42 days was generally well tolerated and safe, whether injected by the subcutaneous (s.c.) or intramuscular (i.m.) route, although it caused significantly more local reactions than did the HBV vaccine. Two vaccination schedules of three primary injections over 42 days (days 0, 14 and 42 or days 0, 21 and 42) provided significantly better protective immunity (anti-toxin levels >0.02 IU/ml) than did vaccinations given over 28 days (days 0, 7 and 28). Vaccine reactogenicity and immunogenicity were similar over 42 days whether administered subcutaneously or intramuscularly. However, even the most immunogenic schedule left 7–16% of volunteers unprotected at day 56 and 33–42% of vaccinees unprotected at 1 year. The booster dose administered at 1 year induced high levels of protective serum anti-toxin in all persons assayed which persisted for at least one additional year. A more potent vaccine formulation will be required to protect more individuals after primary immunization.

During the testing of the safety and immunogenicity of an adjuvanted, synthetic Plasmodium falciparum CS multiple antigen peptide (MAP) vaccine, we investigated the potential for using cutaneous delayed-type hypersensitivity (DTH) reactions as a correlate of immune response. We evaluated 27 of our volunteers for DTH reactions to intradermal inoculation (0.02 ml) of several concentrations of the MAP vaccine and adjuvant control solutions. Induration was measured 2 days after skin tests were applied. Nine of 14 vaccinees (64%) with serum, high-titered anti-MAP antibody developed positive DTH (≥5 mm induration), that first appeared by 29 days after immunization and persisted for at least 3–6 months after 1–2 more immunizations. In contrast, DTH responses were negative in eight of eight vaccinees with no or low antibody titers, and in five of five non-immunized volunteers. Biopsies of positive DTH skin test sites were histologically compatible with a DTH reaction. We conclude that the presence of T cell functional activity reflected by a positive DTH skin test response to the MAP antigen serves as another marker for vaccine immunogenicity.

Table 1 Distribution of vaccine formulations, haplotypes, and schedules for vaccination and immediate hypersensitivity skin tests (ITH-STs) among six volunteer dose groups vaccinated with malaria multi-antigen peptide (PfCS-MAP1NYU) vaccine