As such, there is profound scientific rationale to pursue the dev

As such, there is profound scientific rationale to pursue the development of female-controlled preventive strategies, principally involving the cervico-vaginal region, the predominant mucosal viral portal of entry in heterosexual transmission. To be fully effective, such a vaccine should NVP-BKM120 molecular weight provide sterilising immunity in the vaginal mucosal environment

by inducing sustained robust protective immune effector function against diverse viral isolates. How to achieve sustained immune effector function, particularly humoral immune effector function by way of neutralising antibody or rapid effective recall of immunological memory at mucosal surfaces is the subject of intense investigation. In addition, from a formulation/drug delivery perspective to ensure

equity of access, particularly in the context of sub-Saharan Africa, such a vaccine should preferentially be inexpensive, safe, thermo-stable PR-171 chemical structure not requiring cold-chain storage and would facilitate female-controlled administration. It is thought that the envelope spike is the only HIV-1 target available for neutralising antibodies [4]. As a result much emphasis has been placed on viral surface envelope glycoproteins as HIV-1 vaccine candidates. The efficacy of protein pharmaceuticals as vaccines depends Thalidomide upon maintaining storage stability as well as intended antigenicity following administration. Vaginally administered solubilised protein antigens are subject to leakage at the administration site, rapid enzymatic degradation, the influences of the menstrual cycle and inadequate exposure to the mucosal associated

lymphoid tissue. There are a limited number of reports of vaginal immunization in women [5], [6], [7], [8], [9], [10] and [11] and, with the exception of three studies [5], [6] and [7] they have employed a known potent mucosal immunogen-cholera toxin subunit B that does not require the use of an adjuvant. We previously reported on the design and development of well-tolerated mucoadhesive, syringeable, rheologically structured semi-solid vehicles (RSVs) for site-retentive vaginal administration of an HIV-1 vaccine candidate – a recombinant clade-C gp140 envelope protein (CN54gp140), in the rabbit model [12] and [13]. While the RSVs were a viable delivery modality for vaginal immunization as determined by the elicitation of vaccine-specific serum immunoglobulin (Ig) G, and vaccine-specific IgG and IgA in genital tract secretions, the vaccine was not stable within the aqueous-based preserved RSV formulations. The antigenicity of CN54gp140 altered over the course of prolonged storage and this was more pronounced the higher the storage temperature.

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