MIR630 (MicroRNA 630)

This review synthesizes the current evidence on the ncRNA-mediated regulatory networks that influence CRC radiosensitivity, emphasizing their potential as therapeutic targets to overcome RT resistance and improve outcomes in advanced CRC. By bridging mechanistic insights with clinical applications, this work aims to guide future research and the implementation of precision RT strategies.

Blood samples were collected from newly diagnosed CML patients before initiation of tyrosine kinase inhibitor (TKI), imatinib treatment, and while on therapy...MiRs have significant potential as prognostic and predictive biomarkers for CML patients. MiR-223-3p, miR-4454, miR-7975 and miR-630 could be considered as prognostic and predictive biomarkers for disease progression and treatment response if validated by other large studies.

MiR-630 emerges as a pivotal regulator in PCSC biology, opening up new avenues for targeted interventions in PC. The inhibitory effect of miR-630 on PCSC behavior underscores its potential as a valuable therapeutic target, offering insights into innovative treatment strategies for this challenging disease.

Besides that, when inhibition of the TGF-β pathway was combined with miR-630 overexpression or miR-483-3p silencing, cell viability and colony formation capacity decreased, and protein expression in the TGF-β pathway changed. Together, the data indicate that both miRNAs participate in the TGF-β pathway and are therefore potential markers for predicting the prognosis of patients with pediatric ACT.

ATF1, which modulates the miR-630/MAL2 pathway, affects the EMT process and cervical carcinoma cell growth and spread. Therefore, ATF1 may serve as a promising marker and treatment target for cervical malignancies intervention.

MiR-630 may inhibit the inflammatory reaction of DKD by targeting TLR4, and has a protective effect on DKD.

The combination of these three microRNAs encapsulated into lipid nanoparticles prevented lung metastasis in a mouse model of spontaneous metastasis. The mixture of three microRNAs (miR-195-5p/miR-520a/miR-630) holds promise for the development of an antimetastatic therapeutic that blocks tumor cell dedifferentiation, which occurs at secondary tumor sites and determines the transition of micrometastases to macrometastases.

Thus, this study elucidates that miR-630 augments radioresistance by inducing an anti-apoptotic effect via the Nrf2-GPX2 molecular axis in HNC. The modulation of miR-630 may serve as a novel radiosensitizing target for HNC.

Our findings indicate the miR-181a-5p and miR-630 expression levels have the potential to prognose and predict and therefore improve the treatment individualization and the outcome of NSCLC patients. Circulating miR-181a-5p has the potential clinical value as a non-invasive biomarker for NSCLC.

The present study has proven that the underlying mechanism of acovenoside A is partially attributed to the upregulation of miR-630 and miR-181a gene expressions which in turn targets the intrinsic apoptosis genes as p53, Bax and Bcl2 as well as caspase 3. The present study is the first to address the valuable effect of using acovenoside A together with carboplatin and taxol in the treatment of NSCLC via exerting apoptotic, antiproliferative, and cytotoxic effects..