ABSTRACT
T lymphocyte responses in vitro are not all-or-none choices to environmental stimulation, but follow at least three distinct patterns: full activation and expansion, anergy induction, and receptor-mediated suicide by apoptosis. In vitro model systems were devised to investigate the differential control of T cell responses by surface CD activation molecules, CD4+ T cells from T. cruzi-infected mice are severely impaired in their proliferative response to TCR stimulation. TCR stimulation leads to CD4+ T cell suicide by apoptosis, but CD3 stimulation is less efficient in this effect. Triggering of normal CD4 T cells through CD4 coincident with TCR activation, does not affect proliferative responses, but induces marked morphological changes in the T cells, which become adherent, form extended cytoplasmic projections, and acquire motile behavior. This response requires IL4 production, and can be markedly upregulated by exogenous IL4. Autoreactive CD4 T cell functioning can help syngeneic B cells to produce a TH2 pattern of immunoglobulin isotypes following stimulation by a thymus independent antigen. These results indicate that distinct patterns of functional behavior in vitro can be induced, depending both on the past experience of the T cell and on the exact array of stimulatory CD antigens engaged in the process of activation. The relevance of these constraints in generating variable behavior for immunoregulation is discussed.
Subject(s)
Humans , CD4-Positive T-Lymphocytes/immunology , Antigens, T-Independent/immunology , Cell Movement/immunology , Antibody Formation/immunology , Cell Adhesion Molecules/immunology , T-LymphocytesABSTRACT
Suckling mouse brain (SMB) rabies vaccine is the preparation most widely used in the countries of Latin América and the Caribbean. This vaccine, prepared according to the Fuenzalida and Palacios method, consists of three fixed rabies virus strains (CVS, 51, and 91). However, the World Health Organization recommends that rabies vaccines for human use be prepared using only a single strain of this virus. In order to determine whether any one of the antigens of the SMB vaccine could be eliminated from the preparation, the immunogenic capacity of the standard trivalent SMB vaccine was compared with that of experimental bivalent (CVS-51, CVS-91, and 51-91) and monovalent (CVS, 51, and 91) SMB vaccines. The study was conducted using adult and suckling albino mice provided by the laboratory at the Pan Américan Zoonoses Center, Buenos Aires, Argentina, and different strains of fixed and street rabies virus. The experimental vaccines were prepared using the Fuenzalida-Palacios method. Potency and cross-immunity tests were conducted. The result showed that the trivalent vaccine was the most effective in protecting the mice againg both fixed and street rabies virus infections and also in inducing rapid development of neutralizing antibody at high titers
Subject(s)
Rabies Vaccines/analysis , Rabies Vaccines/immunology , Rabies virus/isolation & purification , Caribbean Region , Latin AmericaABSTRACT
Suckling mouse brain (SMB) rabies vaccine is the preparation most widely used in the countries of Latin America and the Caribbean
This vaccine, prepared according to the Fuenzalida and Palacios method, consists of three fixed rabies virus strains (CVS, 51, and 91). However, the World Health Organization recommends that rabies vaccines for human use be prepared using only a single strain of this virus
In order to determine whether any one of the antigens of the SMB vaccine could be eliminated from the preparation, the immunogenic capacity of the standard trivalent SMB vaccine was compared with that of experimental bivalent (CVS-51, CVS-91, and 51-91) and monovalent (CVS, 51, and 91) SMB vaccines
The study was conducted using adult and suckling albino mice provided by the laboratory at the Pan American Zoonoses Center, Buenos Aires, Argentina, and different strains of fixed and street rabies virus
Potency and cross-immunity tests were conducted
The result showed that the trivalent vaccine was the most effective in protecting the mice againg both fixed and street rabies virus infections and also in inducing rapid development of neutralizing antibody at high titers
The experimental vaccines were prepared using the Fuenzalida-Palacios method