Recent studies revealed that the lymphotoxin/lymphotoxin beta receptor (LT)/ LTR system activates the noncanonical nuclear factor-B (NF-B) signaling pathway involving I kappa B kinase 1/I kappa B kinase ␣ (IKK1/IKK␣) and NF-B-inducing kinase (NIK) to direct processing of the nfb2 protein p100 to yield RelB:p52 complexes. Despite the biochemical evidence, LT-, RelB-, p52-deficient mice show discrepant phenotypes. We now demonstrate that p105/p50 also constitutes an important pathway for LTR signaling. Our studies revealed that mice deficient in either p50 or p52 have defects in the formation of inguinal lymph nodes (LNs), but that the complete defect in lymph node formation and splenic microarchitecture seen in LT-deficient mice is recapitulated only in mice deficient in both p50 and p52. Biochemically, we find not only that both p50-and p52-containing NF-B activities are induced by LTR signaling, but that the induction of NF-B-containing complexes by LTR engagement is perturbed in single knockouts. Importantly, the LTR can additionally activate the less well-characterized p52:RelA and p50:RelB pathways, which play pivotal roles in vivo for the development and organization of lymphoid structures. Our genetic, cellular, and molecular evidence points toward a model of LT-mediated NF-B regulation in which p105/p50 and p100/p52 have distinct and coordinating molecular specificities but differ in the upstream signaling pathways that regulate them. (Blood. 2006;107:1048-1055)
Breakage-fusion-bridge (BFB) is a mechanism of genomic instability characterized by the joining and subsequent tearing apart of sister chromatids. When this process is repeated during multiple rounds of cell division, it leads to patterns of copy number increases of chromosomal segments as well as fold-back inversions where duplicated segments are arranged head-to-head. These structural variations can then drive tumorigenesis. BFB can be observed in progress using cytogenetic techniques, but generally BFB must be inferred from data such as microarrays or sequencing collected after BFB has ceased. Making correct inferences from this data is not straightforward, particularly given the complexity of some cancer genomes and BFB's ability to generate a wide range of rearrangement patterns. Here we present algorithms to aid the interpretation of evidence for BFB. We first pose the BFB countvector problem: given a chromosome segmentation and segment copy numbers, decide whether BFB can yield a chromosome with the given segment counts. We present a linear time algorithm for the problem, in contrast to a previous exponential time algorithm. We then combine this algorithm with fold-back inversions to develop tests for BFB. We show that, contingent on assumptions about cancer genome evolution, count vectors and fold-back inversions are sufficient evidence for detecting BFB. We apply the presented techniques to paired-end sequencing data from pancreatic tumors and confirm a previous finding of BFB as well as identify a chromosomal region likely rearranged by BFB cycles, demonstrating the practicality of our approach.bioinformatics | cancer genomics | combinatorial pattern matching | gene amplification
On their entry into the thymus, developing lymphocyte progenitors depend on signaling from the pre-T cell receptor (pre-TCR), which orchestrates differentiation, cell proliferation, and survival. The exact mechanism of pre-TCR-mediated suppression of T cell death remains unclear and controversial. Here, we identify Bim and Bid, 2 members of the BH3-only group of the BCL2 family, as important regulators of pre-T cell death. Both factors are highly expressed in proapoptotic thymocytes and their expression is suppressed on signaling through the pre-TCR. Their expression is directly regulated by the transcription factors FoxO3a and p53. Bid expression and p53 activity are related to the ongoing rearrangement of the TCR loci and induced DNA damage responses. Bim expression and FoxO3a nuclear translocation are directly controlled by the pre-TCR by means of its downstream kinase Akt/PKB. Interestingly, deletion of either gene on a pre-TCR ؊/؊ background rescues survival, but fails to induce further progenitor differentiation uncoupling the 2 processes.BCL2 family ͉ cell death ͉ pre-TCR signaling ͉ T cell development
Supplementary data are available at Bioinformatics online.
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