No abstract available.
DNA ; Vaccines, DNA

No abstract available.
DNA ; Vaccines, DNA

No abstract available.
DNA ; Vaccines, DNA

In today's medical industry, the range of vaccines that exist for administration in humans represents an eclectic variety of forms and immunologic mechanisms. Namely, these are the live attenuated viruses, inactivated viruses, subunit proteins, and virus-like particles for treating virus-caused diseases, as well as the bacterial-based polysaccharide, protein, and conjugated vaccines. Currently, a new approach to vaccination is being investigated with the concept of DNA vaccines. As an alternative delivery route to enhance the vaccination efficacy, microneedles have been devised to target the rich network of immunologic antigen-presenting cells in the dermis and epidermis layers under the skin. Numerous studies have outlined the parameters of microneedle delivery of a wide range of vaccines, revealing comparable or higher immunogenicity to conventional intramuscular routes, overall level of stability, and dose-sparing advantages. Furthermore, recent mechanism studies have begun to successfully elucidate the biological mechanisms behind microneedle vaccination. This paper describes the current status of microneedle vaccine research.
Antigen-Presenting Cells ; Bacterial Vaccines ; Dermis ; Epidermis ; Humans ; Skin ; Vaccination ; Vaccines ; Vaccines, DNA

Human papillomavirus (HPV) infection is a major cause of cervical cancer and its precancerous diseases. Cervical cancer is the second deadliest cancer killer among women worldwide. Moreover, HPV is also known to be a causative agent of oral, pharyngeal, anal and genital cancer. Recent application of HPV structural protein (L1)-targeted prophylactic vaccines (Gardasil(R) and Cervarix(R)) is expected to reduce the incidence of HPV infection and cervical cancer, and possibly other HPV-associated cancers. However, the benefit of the prophylactic vaccines for treating HPV-infected patients is unlikely, underscoring the importance of developing therapeutic vaccines against HPV infection. In this regard, numerous types of therapeutic vaccine approaches targeting the HPV regulatory proteins, E6 and E7, have been tested for their efficacy in animals and clinically. In this communication, we review HPV vaccine types, in particular DNA vaccines, their designs and delivery by electroporation and their immunologic and antitumor efficacy in animals and humans, along with the basics of HPV and its pathogenesis.
Animals ; Cervical Intraepithelial Neoplasia ; DNA ; Electroporation ; Female ; Humans ; Incidence ; Proteins ; Uterine Cervical Neoplasms ; Vaccines ; Vaccines, DNA

Two human papillomavirus (HPV) vaccines (Gardasil(R) and Cevarix(TM)) were launched between 2006~2007. Clinical trials have been performed in several countries. However, it takes few decades to measure HPV vaccine efficacy for the protection of cervical cancer. Therefore, several surrogate markers such as seroconversion rate, presence of HPV DNA, and cytological/ histological abnormalities have been evaluated. Until now, long-term follow-up data for 5 years (Gardasil) and for 8.4 years (Cevarix) were available from international trials. However, only seroconversion rate at 4 weeks after vaccination and safety were evaluated in Korea. It is necessary to establish a reference laboratory and long-term follow-up monitoring system for the proper evaluation of HPV vaccines in Korea.
Biomarkers ; DNA ; Follow-Up Studies ; Humans ; Korea ; Papillomavirus Vaccines ; Uterine Cervical Neoplasms ; Vaccination ; Vaccines

Toxoplasmosis is a cosmopolitan zoonotic disease, which infect several warm-blooded mammals. More than one-third of the human population are seropositive worldwide. Due to the high seroprevalence of Toxoplasma gondii infection worldwide, the resulting clinical, mental, and economical complications, as well as incapability of current drugs in the elimination of parasites within tissue cysts, the development of a vaccine against T. gondii would be critical. In the past decades, valuable advances have been achieved in order to identification of vaccine candidates against T. gondii infection. Microneme proteins (MICs) secreted by the micronemes play a critical role in the initial stages of host cell invasion by parasites. In this review, we have summarized the recent progress for MIC-based vaccines development, such as DNA vaccines, recombinant protein vaccines, vaccines based on live-attenuated vectors, and prime-boost strategy in different mouse models. In conclusion, the use of live-attenuated vectors as vehicles to deliver and express the target gene and prime-boost regimens showed excellent outcomes in the development of vaccines against toxoplasmosis, which need more attention in the future studies.
Animals ; Humans ; Mammals ; Mice ; Parasites ; Seroepidemiologic Studies ; Toxoplasma* ; Toxoplasmosis ; Vaccines* ; Vaccines, DNA ; Zoonoses

No abstract available.
DNA, Recombinant ; Hepatitis B Vaccines ; Hepatitis B ; Hepatitis ; Yeasts

No abstract available.
DNA, Recombinant ; Hepatitis B Vaccines ; Hepatitis B ; Hepatitis ; Yeasts

No abstract available.
DNA, Recombinant ; Hepatitis B Vaccines ; Hepatitis B ; Hepatitis ; Yeasts