Celine A Hayden1, Maria E Fischer1, Bryan L Andrews1, Hayley C Chilton1, Debra D Turner2, John H Walker3, Ian R Tizard2, John A Howard4. 1. Applied Biotechnology Institute, Cal Poly Tech Park, San Luis Obispo, CA 93407, USA. 2. Department of Veterinary Pathobiology, College of Veterinary Medicine, Texas A&M University, College Station, TX 77843, USA. 3. Department of Statistics, California Polytechnic State University, San Luis Obispo, CA 93407, USA. 4. Applied Biotechnology Institute, Cal Poly Tech Park, San Luis Obispo, CA 93407, USA. Electronic address: jhoward@appliedbiotech.org.
Abstract
BACKGROUND: The hepatitis B surface antigen (HBsAg) has been administered over the last 20 years as a parenteral vaccine against the hepatitis B virus (HBV). Despite high seroconversion rates, chronic infection rates are still high worldwide. Orally delivered vaccines provide a practical alternative to injected vaccines, potentially helping poorly responding populations and providing a viable alternative for populations in remote locations. Anamnestic responses are vital to establishing the efficacy of a given vaccine and have been assessed in this study using a plant-based oral delivery platform expressing HBsAg. METHODS: Long-term immunological memory was assessed in mice injected with a primary dose of Recombivax and boosted with orally-delivered HBsAg wafers, control wafers, or parenterally-delivered commercial vaccine (Recombivax). RESULTS: Mice boosted with HBsAg orally-administered wafers displayed sharp increases in mucosal IgA titers in fecal material and steep increases in serum IgA, whereas mice boosted with Recombivax showed no detectable levels of IgA in either fecal or serum samples following four boosting treatments. Long-term memory in the orally-treated mice was evidenced by sustained fecal IgA, and serum IgA, IgG, and mIU/mL over one year, while Recombivax-treated mice displayed sustained serum IgG and mIU/mL. Furthermore, sharp increases in these same antibodies were induced after re-boosting at 47 and 50 weeks post-primary injection. CONCLUSIONS: Orally-delivered vaccines can provide long-term immune responses mucosally and systemically. For sexually-transmitted diseases that can be acquired at mucosal surfaces, such as HBV, an oral delivery platform may provide added protection over a conventional parenterally administered vaccine.
BACKGROUND: The hepatitis B surface antigen (HBsAg) has been administered over the last 20 years as a parenteral vaccine against the hepatitis B virus (HBV). Despite high seroconversion rates, chronic infection rates are still high worldwide. Orally delivered vaccines provide a practical alternative to injected vaccines, potentially helping poorly responding populations and providing a viable alternative for populations in remote locations. Anamnestic responses are vital to establishing the efficacy of a given vaccine and have been assessed in this study using a plant-based oral delivery platform expressing HBsAg. METHODS: Long-term immunological memory was assessed in mice injected with a primary dose of Recombivax and boosted with orally-delivered HBsAg wafers, control wafers, or parenterally-delivered commercial vaccine (Recombivax). RESULTS:Mice boosted with HBsAg orally-administered wafers displayed sharp increases in mucosal IgA titers in fecal material and steep increases in serum IgA, whereas mice boosted with Recombivax showed no detectable levels of IgA in either fecal or serum samples following four boosting treatments. Long-term memory in the orally-treated mice was evidenced by sustained fecal IgA, and serum IgA, IgG, and mIU/mL over one year, while Recombivax-treated mice displayed sustained serum IgG and mIU/mL. Furthermore, sharp increases in these same antibodies were induced after re-boosting at 47 and 50 weeks post-primary injection. CONCLUSIONS: Orally-delivered vaccines can provide long-term immune responses mucosally and systemically. For sexually-transmitted diseases that can be acquired at mucosal surfaces, such as HBV, an oral delivery platform may provide added protection over a conventional parenterally administered vaccine.
Authors: Celine A Hayden; Stephen J Streatfield; Barry J Lamphear; Gina M Fake; Todd K Keener; John H Walker; John D Clements; Debra D Turner; Ian R Tizard; John A Howard Journal: Vaccine Date: 2012-03-08 Impact factor: 3.641
Authors: Celine A Hayden; Erin M Egelkrout; Alessa M Moscoso; Cristina Enrique; Todd K Keener; Rafael Jimenez-Flores; Jeffrey C Wong; John A Howard Journal: Plant Biotechnol J Date: 2012-07-21 Impact factor: 9.803
Authors: Celine A Hayden; Emily M Smith; Debra D Turner; Todd K Keener; Jeffrey C Wong; John H Walker; Ian R Tizard; Rafael Jimenez-Flores; John A Howard Journal: Vaccine Date: 2014-01-28 Impact factor: 3.641
Authors: Tomasz Pniewski; Marcin Czyż; Katarzyna Wyrwa; Piotr Bociąg; Paweł Krajewski; Józef Kapusta Journal: Plant Cell Rep Date: 2016-09-21 Impact factor: 4.570