Cultured human embryonic stem (hES) cells can acquire genetic and epigenetic changes that make them vulnerable to transformation. As hES cells with cancer-cell characteristics share properties with normal hES cells, such as self-renewal, teratoma formation and the expression of pluripotency markers, they may be misconstrued as superior hES cells with enhanced 'stemness'. We characterize two variant hES cell lines (v-hESC-1 and v-hESC-2) that express pluripotency markers at high levels and do not harbor chromosomal abnormalities by standard cytogenetic measures. We show that the two lines possess some features of neoplastic progression, including a high proliferative capacity, growth-factor independence, a 9- to 20-fold increase in frequency of tumor-initiating cells, niche independence and aberrant lineage specification, although they are not malignant. Array comparative genomic hybridization reveals an amplification at 20q11.1-11.2 in v-hESC-1 and a deletion at 5q34a-5q34b;5q3 and a mosaic gain of chromosome 12 in v-hESC-2. These results emphasize the need for functional characterization to distinguish partially transformed and normal hES cells.
Interactions of Bcl-2 family proteins regulate permeability of the mitochondrial outer membrane and apoptosis. In particular, Bax forms an oligomer that permeabilizes the membrane. To map the interface of the Bax oligomer we used Triton X-100 as a membrane surrogate and performed site-specific photocross-linking. Bax-specific adducts were formed through photo-reactive probes at multiple sites that can be grouped into two surfaces. The first surface overlaps with the BH1-3 groove formed by Bcl-2 Homology motif 1, 2, and 3; the second surface is a rear pocket located on the opposite side of the protein from the BH1-3 groove. Further cross-linking experiments using Bax BH3 peptides and mutants demonstrated that the two surfaces interact with their counterparts in neighboring proteins to form two separated interfaces and that interaction at the BH1-3 groove primes the rear pocket for further interaction. Therefore, Bax oligomerization proceeds through a series of interactions that occur at separate, yet allosterically, coupled interfaces.
Teratogenesis in tails and limb digits of fetal mice with varying Trp53 status was examined after exposure of pregnant females to 4 Gy gamma radiation with and without a prior 30-cGy exposure. Prior low-dose exposure modified the teratogenic effects of radiation in a manner dependent upon Trp53 status and gestation time. A 4-Gy exposure on gestation day 11 resulted in tail shortening and digit abnormalities. A 30-cGy exposure 24 h prior to a 4-Gy radiation exposure on day 11 reduced the extent of both digit abnormalities and the tail-shortening effects in Trp53(+/+) fetuses and also reduced tail shortening in Trp53(+/-) fetuses, but to a lesser extent. However, the pre-exposure enhanced the tail-shortening effects of 4 Gy in Trp53(-/-) fetuses. In contrast, a 30-cGy exposure given 24 h prior to a 4-Gy exposure on gestation day 12 had no effect on the reduced tail length resulting from the 4-Gy exposure of Trp53(+/+) or Trp53(+/-) fetuses, but it partly protected Trp53(-/-) fetuses against reduced tail length. A 4-Gy exposure alone on day 12 did not result in any increase in the frequency of digit abnormalities in Trp53(-/-) fetuses so any protective effect of the preirradiation could not be detected. However, the preirradiation did result in protection against in digit abnormalities in Trp53(+/-) fetuses. We conclude that radiation-induced teratogenesis reflects both Trp53-dependent and independent processes that lead to apoptosis, and these respond differently to prior adapting doses.
Teratogenesis induced by radiation in fetal mice has been closely linked to Trp53-dependent apoptosis. This study examined teratogenesis in tails and limb digits of fetal mice with varying Trp53 status after a 4-Gy radiation exposure, with and without a prior 40.5 degrees C, 60-min heat stress. Irradiation earlier in gestation (day 11) produced greater effects than later (day 12) exposure, but in both cases the maximum teratogenic effect of radiation occurred in Trp53 normal fetuses, the minimum in Trp53 null fetuses, and intermediate effects in Trp53 heterozygotes, indicating dominance of Trp53-dependent apoptosis. Heat stress 24 h prior to irradiation on day 11 did not alter the teratogenic effects in Trp53 normal or heterozygous fetuses, but it reduced effects in the Trp53 null fetuses. Conversely, heat stress immediately before irradiation on day 11 amplified teratogenesis in Trp53 null fetuses, still with only a small or no effect on fetuses with full or partial Trp53 function, respectively. These results indicate little effect of mild heat on Trp53-dependent apoptosis after irradiation, but they also suggest heat-induced amplification of Trp53-independent processes that led to apoptosis when heat was delivered near the time of radiation exposure, and heat-induced protection of that process when sufficient expression time was allowed. However, Trp53-dependent apoptosis, when functional, acted as the ultimate determinant of radiation-induced teratogenic effects during early organogenesis. On gestation day 12, radiation effects were diminished, but heat stress 24 h prior to radiation exposure had a large amplifying effect in Trp53 normal or heterozygous fetuses. In the absence of functional Trp53, the sensitizing effect of the heat was diminished. The results may suggest that at later times in organ development, DNA repair is more active, allowing some cells to escape radiation-induced Trp53-dependent apoptosis. However, heat may be able to significantly inhibit this active repair and increase the teratogenic effect of radiation. A diminished effect in the absence of functional Trp53 is consistent with an influence of heat on inhibiting DNA repair, but with a diminished probability of apoptosis.
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