Inhibitor of apoptosis (IAP) proteins cIAP1, cIAP2, and XIAP (X‐linked IAP) regulate apoptosis and cytokine receptor signalling, but their overlapping functions make it difficult to distinguish their ...individual roles. To do so, we deleted the genes for IAPs separately and in combination. While lack of any one of the IAPs produced no overt phenotype in mice, deletion of cIap1 with cIap2 or Xiap resulted in mid‐embryonic lethality. In contrast, Xiap−/−cIap2−/− mice were viable. The death of cIap2−/−cIap1−/− double mutants was rescued to birth by deletion of tumour necrosis factor (TNF) receptor 1, but not TNFR2 genes. Remarkably, hemizygosity for receptor‐interacting protein kinase 1 (Ripk1) allowed Xiap−/−cIap1−/− double mutants to survive past birth, and prolonged cIap2−/−cIap1−/− embryonic survival. Similarly, deletion of Ripk3 was able to rescue the mid‐gestation defect of cIap2−/−cIap1−/− embryos, as these embryos survived to E15.5. cIAPs are therefore required during development to limit activity of RIP kinases in the TNF receptor 1 signalling pathway.
The inhibitor of apoptosis proteins cIAP1, cIAP2, and XIAP exert overlapping functions in apoptosis and cytokine signalling. A series of single‐ and double‐knockout mice reveal an essential function of IAP proteins in preventing TNF receptor 1‐induced, RIP kinase 1‐ and 3‐dependent cell death during embryogenesis.
In most myeloid leukemias induced in mice by γ-radiation, one copy of chromosome 2 has suffered a deletion. To search for a potential tumor suppressor gene in that region, we have delineated the ...deletions in a panel of these tumors. A commonly deleted region of 2 megabase pairs (Mbp) includes the gene encoding the PU.1 transcription factor, a powerful inducer of granulocytic/monocytic differentiation. Significantly, in 87% of these tumors the remaining PU.1 allele exhibited point mutations in the PU.1 DNA binding domain. Surprisingly, 86% of these mutations altered a single CpG, implicating deamination of deoxycytidine, a common mutational mechanism, as the origin of this lesion. The “hot spot” resides in the codon for a contact residue essential for DNA binding by PU.1. In keeping with a tumor suppressor role for PU.1, enforced expression of wild-type PU.1 in the promyelocytic leukemia cells inhibited their clonogenic growth, induced monocytic differentiation, and elicited apoptosis. The mutant PU.1 found in tumors retained only minimal growth suppressive function. The results suggest that PU.1 normally suppresses development of myeloid leukemia by promoting differentiation and that the combination of gene deletion and a point mutation that impairs its ability to bind DNA is particularly leukemogenic.
The most thoroughly characterized mammalian IAP is XIAP/BIRC4, which can inhibit caspases 9, 3 and 7, but may also regulate apoptosis through interactions with other proteins such as Smac/DIABLO, ...HtrA2/Omi, XAF1, TAK1, cIAP1, and cIAP2.High throughput sequencing of the mouse genome revealed the existence of a gene resembling Xiap/Birc4 on mouse chromosome 7. To confirm the existence of this gene, and to determine its functional significance, we performed Southern and Northern blot analysis. This showed the presence of the Xiap-like gene in both wild-type and Xiap gene knock-out mice, but the corresponding mRNA was not detected in any tissues examined by Northern blot. Analysis of the gene sequence in all three possible reading frames predicts that expression of this gene would not give rise to a full-length protein, but only non-functional truncated polypeptides. Because its nucleotide sequence is 92% identical to Xiap, but it has no introns corresponding to those of Xiap, we conclude that Xiap-ps1 is a pseudogene generated by retro-transposition of a spliced Xiap message to chromosome 7.
RIPK1 is involved in signaling from TNF and TLR family receptors. After receptor ligation, RIPK1 not only modulates activation of both canonical and NIK-dependent NF-κB, but also regulates caspase-8 ...activation and cell death. Although overexpression of RIPK1 can cause caspase-8-dependent cell death, when RIPK1−/− cells are exposed to TNF and low doses of cycloheximide, they die more readily than wild-type cells, indicating RIPK1 has pro-survival as well as pro-apoptotic activities (1, 2). To determine how RIPK1 promotes cell survival, we compared wild-type and RIPK1−/− cells treated with TNF. Although TRAF2 levels remained constant in TNF-treated wild-type cells, TNF stimulation of RIPK1−/− cells caused TRAF2 and cIAP1 to be rapidly degraded by the proteasome, which led to an increase in NIK levels. This resulted in processing of p100 NF-κB2 to p52, a decrease in levels of cFLIPL, and activation of caspase-8, culminating in cell death. Therefore, the pro-survival effect of RIPK1 is mediated by stabilization of TRAF2 and cIAP1.
There is a great difference in susceptibility to v-abl transgene-induced plasmacytoma between the BALB/cAn and the relatively resistant C57BL/6J mouse strains. We have used the Mapmaker/SURVIVOR ...algorithm to analyze genome-wide scans on over 800 transgenic F2hybrid mice, and have mapped at least six loci on chromosomes 2, 4, 11, 17, and 18 that modify tumor-related morbidity. As in human multiple myeloma, males were found to be more prone to plasmacytomagenesis. Different loci influence tumor susceptibility in male and female mice. Survival in females may be largely controlled by a pair of interacting loci on chromosomes 2 and 17.
Peripheral quantitative computed tomography (pQCT), a noninvasive method for measuring bone characteristics, was used to evaluate bone healing in 3 white leghorn chickens (Gallus domesticus) after ...radial osteotomy at 22 days of age. The time sequence for callus formation and mineralization over a 45-day period was examined by performing serial cross-sectional scans of the osteotomized radius of each bird daily from day 2 to day 29 and on days 42 and 45 after surgery. Complete data were available for 2 birds. Formation of a new marrow cavity was apparent by 4 weeks after surgery, and union of the bone ends appeared complete by day 42. Bone mineral content (BMC), bone mineral density (BMD), and cross-sectional area (CSA) were measured at the radial osteotomy site, at 3 mm proximal to it, and at the corresponding areas on the ulna. The radial osteotomy site began to mineralize by day 4, and BMC and CSA increased approximately 100% in both birds between days 5 and 10. In bird 2, BMC and CSA continued to increase (55% and 74%, respectively). Peak radial levels of both BMC and CSA were followed by plateaus lasting approximately 7 days, then both levels decreased during callus resorption. The radial BMD increased during these plateaus, then decreased as the callus was remodeled. Between days 29 and 42, the BMD of the radial osteotomy site increased and approached that of the corresponding ulna. The sequences of changes in BMC, CSA, and BMD after day 10 were similar in each bird. These results indicate that pQCT is a useful tool to monitor postosteomy bone healing in chicks.
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