Age-related Defects in CD4 T Cell Cognate Helper Function Lead to Reductions in Humoral Responses

To study the potential roles of CD40L in immune responses, we generated CD40L-deficient mice by gene targeting. Similar to the effects of CD40L mutations in humans (hyper-IgM syndrome), CD40L-deficient mice have a decreased IgM response to thymus-dependent antigens, fail altogether to produce an antigen-specific IgG1 response following immunization, yet respond normally to a T-independent antigen, TNP-Ficoll. Moreover, these mice do not develop germinal centers in response to thymus-dependent antigens, suggesting an inability to develop memory B cell responses. Although CD40L-deficient mice have low levels of most circulating immunoglobulin isotypes, they do not exhibit the spontaneous hyper-IgM syndrome seen in humans, at least up to 12 weeks of age. In summary, our study confirms the important role of CD40-CD40L interactions in thymus-dependent humoral immune responses and germinal center formation.

T lymphocytes are predisposed to recognition of foreign protein fragments bound to cell-surface molecules encoded by the major histocompatibility complex (MHC). There is now compelling evidence that this specificity is a consequence of a selection process operating on developing T lymphocytes in the thymus. As a result of this positive selection, thymocytes that express antigen receptors with a threshold affinity for self MHC-encoded glycoproteins preferentially emigrate from the thymus and seed peripheral lymphoid organs. The specificity for both foreign antigen and MHC molecules is imparted by the alpha and beta chains of the T-cell antigen receptor (TCR). Two other T-cell surface proteins, CD4 and CD8, which bind non-polymorphic regions of class II and class I MHC molecules respectively, are also involved in these recognition events and play an integral role in thymic selection. In order to elucidate the developmental pathways of class II MHC-restricted T cells in relation to these essential accessory molecules, we have produced TCR-transgenic mice expressing a receptor specific for a fragment of pigeon cytochrome c and the Ek (class II MHC) molecule. The transgenic TCR is expressed on virtually all T cells in mice expressing Ek. The thymuses of these mice contain an abnormally high percentage of mature CD4+CD8- cells. In addition, the peripheral T-cell population is almost exclusively CD4+, demonstrating that the MHC specificity of the TCR determines the phenotype of T cells during selection in the thymus.

During the 1995-96 winter season (i.e., November 1995 through April 1996), both the Maine Department of Inland Fisheries and Wildlife (DIFW) and the Maine Office of the Chief Medical Examiner (OCME) detected an increase in deaths associated with snowmobile use in Maine. From the fall of 1991 through the spring of 1995, three to eight snowmobile-related deaths occurred each winter season (mean: 5.4 per winter season); during the 1995-96 winter season, 12 deaths were recorded--the largest number of snowmobile-related deaths in 25 years. In addition, from 1991 through 1996, the number of registered snowmobiles increased from 61,641 to a record high of 76,477, respectively, and the death rate per registered vehicle in 1996 was higher than in any of the previous 5 years. To assist in the development and evaluation of strategies to prevent injury and death associated with the use of snowmobiles in Maine, the Bureau of Health, Maine Department of Human Services (BOH), collaborated with DIFW and OCME to examine data about fatal and nonfatal injuries associated with use of snowmobiles from 1991 through 1996. This report summarizes the results of this analysis and recommends strategies for preventing such deaths and injuries.