Barry Grimes scite author profile

SUMMARYAn important unresolved question in skeletal muscle plasticity is whether satellite cells are necessary for muscle fiber hypertrophy. To address this issue, a novel mouse strain (Pax7-DTA) was created which enabled the conditional ablation of >90% of satellite cells in mature skeletal muscle following tamoxifen administration. To test the hypothesis that satellite cells are necessary for skeletal muscle hypertrophy, the plantaris muscle of adult Pax7-DTA mice was subjected to mechanical overload by surgical removal of the synergist muscle. Following two weeks of overload, satellite cell-depleted muscle showed the same increases in muscle mass (approximately twofold) and fiber cross-sectional area with hypertrophy as observed in the vehicle-treated group. The typical increase in myonuclei with hypertrophy was absent in satellite cell-depleted fibers, resulting in expansion of the myonuclear domain. Consistent with lack of nuclear addition to enlarged fibers, long-term BrdU labeling showed a significant reduction in the number of BrdU-positive myonuclei in satellite cell-depleted muscle compared with vehicle-treated muscle. Single fiber functional analyses showed no difference in specific force, Ca 2+ sensitivity, rate of cross-bridge cycling and cooperativity between hypertrophied fibers from vehicle and tamoxifen-treated groups. Although a small component of the hypertrophic response, both fiber hyperplasia and regeneration were significantly blunted following satellite cell depletion, indicating a distinct requirement for satellite cells during these processes. These results provide convincing evidence that skeletal muscle fibers are capable of mounting a robust hypertrophic response to mechanical overload that is not dependent on satellite cells.

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Nuclear factor-κB is constitutively activated in primitive human acute myelogenous leukemia cells

Guzmán

et al. 2001

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Human acute myelogenous leukemia (AML) is thought to arise from a rare population of malignant stem cells. Cells of this nature, herein referred to as leuke-mic stem cells (LSCs), have been documented for nearly all AML subtypes and appear to fulfill the criteria for stem cells in that they are self-renewing and give rise to the cells found in many leukemic populations. Because these cells are likely to be critical for the genesis and perpetu-ation of leukemic disease, the present studies sought to characterize unique molecular properties of the LSC population , with particular emphasis on the transcription factor, nuclear factor-B (NF-B). Previous experiments have shown that unstimulated human CD34 progenitor cells do not express NF-B. In contrast , primary AML CD34 cells display readily detectable NF-B activity as assessed by electrophoretic mobility shift assay and gene expression studies. Furthermore , detailed analyses of enriched AML stem cells (CD34 /CD38 /CD123) indicate that NF-B is also active in the LSC population. Given the expression of NF-B in leukemic, but not normal primitive cells, the hypothesis that inhibition of NF-B might induce leukemia-specific apoptosis was tested by treating primary cells with the proteasome inhibitor MG-132, a well-known inhibitor of NF-B. Leukemic CD34 /CD38 cells displayed a rapid induction of cell death in response to MG-132, whereas normal CD34 /CD38 cells showed little if any effect. Taken together, these data indicate that primitive AML cells aberrantly express NF-B and that the presence of this factor may provide unique opportunities to preferentially ablate LSCs. (Blood. 2001;98: 2301-2307)

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Barry Grimes

Effective fiber hypertrophy in satellite cell-depleted skeletal muscle

Nuclear factor-κB is constitutively activated in primitive human acute myelogenous leukemia cells

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