Present Scenario of M-Cell Targeting Ligands for Oral Mucosal Immunization.

The immune system plays an important role in the prevention of infection and forms the first line of defense against pathogen attack. Delivering of antigen through mucosal route may elicit mucosal immune system as the mucosal surface is the most common site of pathogen entry. Mucosal immune system will be capable to counter pathogen at mucosal surface. Oral mucosal immunization opens the ways to deliver antigens at gut-associated lymphoid tissue. This can elicit both local and systemic immune response. Mucosal vaccines are economical, highly accessible, non parenteral delivery and capacity to produce mass immunization at the time of pandemics. To deliver antigens on the mucosal surface of the gastrointestinal tract, the immune system relies on specialized epithelial cell i.e. Microfold (M)-cell. An approach to exploit the targeting specific receptors on M-cell for entry of antigens has made a breakthrough in vaccine development. In this review, various strategies have been discussed for the possible entry of antigens through M-cells and an approach to increase the uptake and efficacy of vaccines for oral mucosal immunization.

Lipopolysaccharide derived alginate coated Hepatitis B antigen loaded chitosan nanoparticles for oral mucosal immunization.

Mucosal administration of vaccine can produce a strong immune response. Antigens adhere to "M-cells", present at the intestinal mucosa and the M-cells produce immunity after actively transporting luminal antigens to the underlying immune cells. The objective of the present study was to prepare and characterize alginate coated chitosan nanoparticles (ACNPs) loaded with HBsAg as an antigen to produce immunity; additionally anchored with lipopolysaccharide (LPS) as an adjuvant. Ionic gelation method was used to prepare chitosan nanoparticles (CNPs) which were loaded with HBsAg and stabilized by alginate coating to protect from gastric environment. Results showed that the prepared LPS-HB-ACNPs were small and spherical with mean particle size 605.23 nm, polydispersity index 0.234 and Zeta potential -26.2 mV and could effectively protect antigen at GIT in acidic medium. HB-ANCPs were stable during storage at 4 ± 1 and 27 ± 2 °C. Anchoring with LPS showed increased immunity as compared to other formulations. Additionally, NPs elicited significant sIgA at mucosal secretions and IgG antibodies in systemic circulation. Thus, the prepared LPS anchored alginate coated chitosan NPs may be a promising approach as a vaccine delivery system for oral mucosal immunization.