AI Article Synopsis
- T and B lymphocyte receptors are created through a process called somatic recombination, which mixes gene segments for diversity but can also produce dysfunctional (sterile) products.
- The study highlights how T cell receptor (TCR) production is improved by early rearrangement of TCR-beta genes, deletion of nonfunctional TCR-alpha rearrangements, and the generation of new TCR-alpha chains to enhance recognition.
- Additionally, there are important links between successful rearrangements of TCR genes, rapid cell division, and programmed cell death that help regulate T cell development and ensure proper functioning.
Article Abstract
The antigen-specific receptors of T and B lymphocytes are generated by somatic recombination between noncontiguous gene segments encoding the variable portions of these molecules. The semirandom nature of this process, while desirable for the generation of diversity, has been thought to exact a high price in terms of sterile (out-of-frame) products. Historically, the majority of T lymphocytes generated in mammals were thought to be useless, either because they generated such sterile rearrangements or because the receptors generated did not appropriately recognize self-molecules (i.e., positive and negative selection). In the studies described here, we characterize the onset of T cell receptor (TCR) alpha and beta chain gene rearrangements and quantitate their progression throughout T cell development. The results show that T cell production efficiency is enhanced through (a) rearrangement of TCR-beta chain genes early during T cell development, with selective expansion of those cells possessing in-frame rearrangements; (b) deletion of sterile rearrangements at the TCR-alpha chain locus through ordered (proximal to distal) sequential recombination; and (c) modification of nonselectable alpha/beta heterodimer specificities through generation and expression of new TCR-alpha chains. In addition, we demonstrate strict correlations between successful TCR-beta gene rearrangement, the onset of TCR-alpha gene rearrangement, rapid cell division, and programmed cell death, which together serve to maintain cell turnover and homeostasis during T cell development.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2192092 | PMC |
| http://dx.doi.org/10.1084/jem.182.1.121 | DOI Listing |
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