Ru-Qi Jiang scite author profile

The present study demonstrated for the first time that SNORA70E, which belongs to box H/ACA small nucleolar noncoding RNAs (snoRNAs) who could bind and induce pseudouridylation of RNAs, was significantly elevated in ovarian cancer tissues and was an unfavourable prognostic factor of ovarian cancer. The over‐expression of SNORA70E showed increased cell proliferation, invasion and migration in vitro and induced tumour growth in vivo. Further research found that SNORA70E regulates RAS‐Related Protein 1B ( RAP1B ) mRNA through pseudouracil modification by combing with the pyrimidine synthase Dyskerin Pseudouridine Synthase 1 (DKC1) and increase RAP1B protein level. What's more, the silencing of DKC1 / RAP1B in SNORA70E overexpression cells both inhibited cell proliferation, migration and invasion through reducing β‐catenin, PI3K, AKT1, mTOR, and MMP9 protein levels. Besides, RNA‐Seq results revealed that SNORA70E regulates the alternative splicing of PARP‐1 binding protein ( PARPBP ), leading to the 4th exon‐skipping in PARPBP‐88 , forming a new transcript PARPBP‐15 , which promoted cell invasion, migration and proliferation. Finally, ASO‐mediated silencing of SNORA70E could inhibit ovarian cancer cell proliferation, invasion, migration ability in vitro and inhibit tumorigenicity in vivo. In conclusion, SNORA70E promotes the occurrence and development of ovarian cancer through pseudouridylation modification of RAP1B and alternative splicing of PARPBP . Our results demonstrated that SNORA70E may be a new diagnostic and therapeutic target for ovarian cancer.

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Fusion genes in gynecologic tumors: the occurrence, molecular mechanism and prospect for therapy

Jiang

Xie

et al. 2021

Cell Death Dis

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Gene fusions are thought to be driver mutations in multiple cancers and are an important factor for poor patient prognosis. Most of them appear in specific cancers, thus satisfactory strategies can be developed for the precise treatment of these types of cancer. Currently, there are few targeted drugs to treat gynecologic tumors, and patients with gynecologic cancer often have a poor prognosis because of tumor progression or recurrence. With the application of massively parallel sequencing, a large number of fusion genes have been discovered in gynecologic tumors, and some fusions have been confirmed to be involved in the biological process of tumor progression. To this end, the present article reviews the current research status of all confirmed fusion genes in gynecologic tumors, including their rearrangement mechanism and frequency in ovarian cancer, endometrial cancer, endometrial stromal sarcoma, and other types of uterine tumors. We also describe the mechanisms by which fusion genes are generated and their oncogenic mechanism. Finally, we discuss the prospect of fusion genes as therapeutic targets in gynecologic tumors.

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RAB30 Intron-Derived Box H/ACA snoRNA SNORA70E Promotes the Occurrence and Development of Epithelial Ovarian Cancer Through Pseudouridylation Modification of RAP1B and Alternative Splicing of PARPBP

Chen

Bao

et al. 2021

SSRN Journal

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Ru-Qi Jiang

Esculetin inhibits endometrial cancer proliferation and promotes apoptosis via hnRNPA1 to downregulate BCLXL and XIAP

SNORA70E promotes the occurrence and development of ovarian cancer through pseudouridylation modification of RAP1B and alternative splicing of PARPBP

Fusion genes in gynecologic tumors: the occurrence, molecular mechanism and prospect for therapy

<i>RAB30</i> Intron-Derived Box H/ACA snoRNA SNORA70E Promotes the Occurrence and Development of Epithelial Ovarian Cancer Through Pseudouridylation Modification of <i>RAP1B</i> and Alternative Splicing of <i>PARPBP</i>

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