Identification and targeting of a <scp>HES1‐YAP1‐CDKN1C</scp> functional interaction in fusion‐negative rhabdomyosarcoma

Kovach, Alexander R.; Oristian, Kristianne M.; Kirsch, David G.; Bentley, Rex C.; Cheng, Changde; Chen, Xiang; Chen, Po‐Han; Chi, Jen‐Tsan; Linardic, Corinne M.

doi:10.1002/1878-0261.13304

Cited by 4 publications

(2 citation statements)

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“…Since, all three NOTCH receptors are shown to have important roles in rhabdomyosarcoma differentiation, our study is not designed to dissect the roles of individual receptors. 9 , 33 , 34 , 36 , 37 However, we can infer the following based on our analyses. We have previously shown that knockdown of NOTCH1 results in increased MYOG, MEF2C resulting in robust differentiation.…”

Section: Discussionmentioning

confidence: 93%

“… 39 In addition, NOTCH1 and or 3 may also partially suppress differentiation via regulating NOTCH targets genes HES1 and HEY1 involved in differentiation through EBox independent mechanisms. 33 , 36 Second, SNAI2 may have NOTCH independent effects on regulating self-renewal, as sphere formation is still disrupted in SNAI2 knockout RD cells. Finally, since the effects we have outlined may occur in different cell subpopulations i.e.…”

Section: Discussionmentioning

confidence: 99%

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A SNAI2/CTCF Interaction is Required for NOTCH1 Expression in Rhabdomyosarcoma

Sreenivas,

Wang,

Wang

et al. 2023

Molecular and Cellular Biology

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Rhabdomyosarcoma (RMS) is a pediatric malignancy of the muscle with characteristics of cells blocked in differentiation. NOTCH1 is an oncogene that promotes self-renewal and blocks differentiation in the fusion negative-RMS sub-type. However, how NOTCH1 expression is transcriptionally maintained in tumors is unknown. Analyses of SNAI2 and CTCF chromatin binding and HiC analyses revealed a conserved SNAI2/CTCF overlapping peak downstream of the NOTCH1 locus marking a sub-topologically associating domain (TAD) boundary. Deletion of the SNAI2-CTCF peak showed that it is essential for NOTCH1 expression and viability of FN-RMS cells. Reintroducing constitutively activated NOTCH1 -ΔE in cells with the SNAI2-CTCF peak deleted restored cell-viability. Ablation of SNAI2 using CRISPR/Cas9 reagents resulted in the loss of majority of RD and SMS-CTR FN-RMS cells. However, the few surviving clones that repopulate cultures have recovered NOTCH1 . Cells that re-establish NOTCH1 expression after SNAI2 ablation are unable to differentiate robustly as SNAI2 shRNA knockdown cells; yet, SNAI2 -ablated cells continued to be exquisitely sensitive to ionizing radiation. Thus, we have uncovered a novel mechanism by which SNAI2 and CTCF maintenance of a sub-TAD boundary promotes rather than represses NOTCH1 expression. Further, we demonstrate that SNAI2 suppression of apoptosis post-radiation is independent of SNAI2 / NOTCH1 effects on self-renewal and differentiation.

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