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T-cell vaccines are designed to induce cellular immunity. They are also referred to as cell-mediated immune (CMI) vaccines. [2] It is believed that CMI vaccines can be more effective than conventional B-cell vaccines for yielding protection against microbes which tend to hide within the host cell, and rapidly mutating microbes (such as HIV or ...
The concept of T-cell vaccination is, at least partially, analogous to classical vaccination against infectious disease. However, the agents to be eliminated or neutralized are not foreign microbial agents but a pathogenic autoreactive T-cell population. Research on T-cell vaccination so far has focused mostly on multiple sclerosis and to a ...
In the case of a conjugate vaccine, the carrier peptide linked to the polysaccharide target antigen is able to be presented on the MHC molecule and the T cell can be activated. This improves the vaccine as T cells stimulate a more vigorous immune response and also promote a more rapid and long-lasting immunologic memory.
Live, attenuated vaccines, such as smallpox and polio vaccines, are able to induce killer T-cell (T C or CTL) responses, helper T-cell (T H) responses and antibody immunity. However, attenuated forms of a pathogen can convert to a dangerous form and may cause disease in immunocompromised vaccine recipients (such as those with AIDS). While ...
T cells are one of the important types of white blood cells of the immune system and play a central role in the adaptive immune response. T cells can be distinguished from other lymphocytes by the presence of a T-cell receptor (TCR) on their cell surface. T cells are born from hematopoietic stem cells, [1] found in the bone marrow.
The main benefit of cell-based vaccines is the ability to rapidly produce vaccine supplies during an impending pandemic.Cell-based antigen production offer a faster and more stable production of vaccines compared to embryonic chicken eggs, which produce 1-2 vaccine doses per chicken egg. [8]
When a vaccine is administered, the antigen will be taken up by an antigen-presenting cell (APC) and transported to a draining lymph node in vaccinated people. The APC will place a piece of the antigen, an epitope, on its surface along with a major histocompatibility complex (MHC) molecule. It can now interact with and activate T cells.
Immunotransplant is a maneuver used to make vaccines more powerful. It refers to the process of infusing vaccine-primed T lymphocytes into lymphodepleted recipients for the purpose of enhancing the proliferation and function of those T cells and increasing immune protection induced by that vaccine.