Nm23‐H1 inhibits lung cancer bone‐specific metastasis by upregulating miR‐660‐5p targeted SMARCA5

Ai, Cheng; Ma, Guangzhi; Deng, Yunfu; Zheng, Qiangqiang; Gen, Yingcai; Li, Wen; Yang, Li; Zu, Lingling; Zhou, Qinghua

doi:10.1111/1759-7714.13308

Cited by 24 publications

(19 citation statements)

References 39 publications

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“…Furthermore, DNA is of great significance. For example, by upregulating miR-660-5p and targeted SWItch/Sucrose Non-Fermentable (SWI/SNF) related, matrix associated, actin-dependent regulator of chromatin, subfamily A, member 5 (SMARCA5), Nm23-H1 causes inhibition of bone-specific metastasis (55).…”

Section: Genetic Factorsmentioning

confidence: 99%

Current progress and mechanisms of bone metastasis in lung cancer: a narrative review

Wu¹,

Pan²,

Mao³

et al. 2021

Transl Lung Cancer Res

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Lung cancer is a kind of malignant tumor with rapid progression and poor prognosis. Distant metastasis has been the main cause of mortality among lung cancer patients. Bone is one of the most common sites. Among all lung cancer patients with bone metastasis, most of them are osteolytic metastasis. Some serious clinical consequences like bone pain, pathological fractures, spinal instability, spinal cord compression and hypercalcemia occur as well. Since the severity of bone metastasis in lung cancer, it is undoubtedly necessary to know how lung cancer spread to bone, how can we diagnose it and how can we treat it. Here, we reviewed the process, possible mechanisms, diagnosis methods and current treatment of bone metastasis in lung cancer. We divided the process of bone metastasis in lung cancer into three steps: tumor invasion, tumor cell migration and invasion in bone tissue. It may be influenced by genetic factors, microenvironment and other adhesion-related factors. Imaging examination, laboratory examination, and pathological examination are used to diagnose lung cancer metastasis to bone. Surgery, radiotherapy, targeted therapy, bisphosphonate, radiation therapy and chemotherapy are the common clinical treatment methods currently. We also found some problems remained to be solved. For example, drugs for skeletal related events mainly target on osteoclasts at present, which increase the ratio of patients in osteoporosis and fractures in the long term. In all, this review provides the direction for future research on bone metastasis in lung cancer.

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Section: Genetic Factorsmentioning

confidence: 99%

Current progress and mechanisms of bone metastasis in lung cancer: a narrative review

Wu¹,

Pan²,

Mao³

et al. 2021

Transl Lung Cancer Res

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“…Studies by Dash and others in 2010 showed that the downregulation of the SARI gene weakened IFN-β-induced tumor suppression (24). In 2009, the CD9, RHOA, and MYL12A genes, and in 2020, the Nm23-H1 gene, were found to be expressed in liver metastasis, and may be potential lung cancer suppressor genes in hepatic metastasis (25,32,35). It can cause the invasion and change of transfer.…”

Section: Gene and Lung Cancer Metastasismentioning

confidence: 99%

“…2019 CUL5The accumulation of integrin β1 caused by the deletion of CUL5/SOCS3 can open up the downstream signaling pathway FAK/SRC and transfer SCLC.CUL5 and SOCS3, two components of the culling-ring E3 ubiquitin ligase complex, are candidate genes for inhibiting SCLC metastasis(28,34) 2020 Nm23-H1 Nm23-H1 gene is an inhibitor of tumor metastasis in lung cancer. By regulating the expression of specific metastasis-related genes and signaling pathway-related genes, the transfer of lung cancer cell L9981 can be changed to a certain extent(35) regulation in lung cancer is still unclear. Recent studies have found that miRNA-182 is significantly upregulated in a variety of solid tumors.…”

mentioning

confidence: 99%

Research progress on the molecular mechanisms of hepatic metastasis in lung cancer: a narrative review

Ying¹,

Ma²,

Zhang³

et al. 2021

Ann Palliat Med

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The liver is one of the most common sites of metastatic spread of lung cancer, and the process of metastasis is regulated by many factors. A number of genes, including multiple tumor suppressor 1 (mts1), p120 catenin, and CT45A1, increase the possibility of hepatic metastasis in lung cancer, whereas Tip30/ CC3, CUL5, and SOCS3 expression in lung tumors inhibit tumor metastasis. microRNAs (miRNAs), such as miRNA-126, miRNA-338, and miRNA-218, can affect the metastasis of lung cancer cells to the liver. The D114-Notch signaling pathway can inhibit liver metastasis in small cell lung cancer. Serum tumor markers cytokeratin 19 fragment antigen 21-1 and neuron-specific enolase (NSE) are closely related to the risk of hepatic metastasis in lung cancer. Based on previously published literature, we found that the metastasis and invasion of lung cancer to the liver are determined by molecular factors. Therefore, the selective identification and intervention of these erroneous signals can predict early lung cancer metastasis to the liver.In this review article, we describe the mechanisms and influencing factors (genes, signal pathways, chemicals, proteins, miRNAs) of hepatic metastasis in lung cancer. We hope to provide a summary of the evidence for the mechanisms by which related genes or proteins affect the malignancy of liver metastasis from lung cancer so that doctors and researchers can improve treatment options.

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“…Micro-RNAs have been implicated in the mode of action of genes, which act to regulate lung cancer metastasis. The gene Nm23-H1 is a demonstrated inhibitor of lung cancer metastasis to bone, and qRT-PCR-based studies demonstrated that Nm23-H1 suppresses the expression of micro-RNA miR-660-5p [ 96 ]. Micro-RNA miR-660-5p has demonstrated ability to promote bone metastasis of lung cancer via regulation of the transcriptional regulator SMARCA5 [ 96 ].…”

Section: Biomarkers For Bone Metastasismentioning

confidence: 99%

“…The gene Nm23-H1 is a demonstrated inhibitor of lung cancer metastasis to bone, and qRT-PCR-based studies demonstrated that Nm23-H1 suppresses the expression of micro-RNA miR-660-5p [ 96 ]. Micro-RNA miR-660-5p has demonstrated ability to promote bone metastasis of lung cancer via regulation of the transcriptional regulator SMARCA5 [ 96 ]. Elucidation of the function of miR-660-5p reveals a network of transcriptional regulation via micro-RNAs and transcription factors operating within the bone metastasis of lung cancer.…”

Section: Biomarkers For Bone Metastasismentioning

confidence: 99%

Personal Medicine and Bone Metastases: Biomarkers, Micro-RNAs and Bone Metastases

Wood¹,

Brown

2020

Cancers

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Bone metastasis is a major cause of morbidity within solid tumours of the breast, prostate, lung and kidney. Metastasis to the skeleton is associated with a wide range of complications including bone fractures, spinal cord compression, hypercalcaemia and increased bone pain. Improved treatments for bone metastasis, such as the use of anti-bone resorptive bisphosphonate agents, within post-menopausal women have improved disease-free survival; however, these treatments are not without side effects. There is thus a need for biomarkers, which will predict the risk of developing the spread to bone within these cancers. The application of molecular profiling techniques, together with animal model systems and engineered cell-lines has enabled the identification of a series of potential bone-metastasis biomarker molecules predictive of bone metastasis risk. Some of these biomarker candidates have been validated within patient-derived samples providing a step towards clinical utility. Recent developments in multiplex biomarker quantification now enable the simultaneous measurement of up to 96 micro-RNA/protein molecules in a spatially defined manner with single-cell resolution, thus enabling the characterisation of the key molecules active at the sites of pre-metastatic niche formation as well as tumour-stroma signalling. These technologies have considerable potential to inform biomarker discovery. Additionally, a potential future extension of these discoveries could also be the identification of novel drug targets within cancer spread to bone. This chapter summarises recent findings in biomarker discovery within the key bone metastatic cancers (breast, prostate, lung and renal cell carcinoma). Tissue-based and circulating blood-based biomarkers are discussed from the fields of genomics, epigenetic regulation (micro-RNAs) and protein/cell-signalling together with a discussion of the potential future development of these markers towards clinical development.

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Nm23‐H1 inhibits lung cancer bone‐specific metastasis by upregulating miR‐660‐5p targeted SMARCA5

Cited by 24 publications

References 39 publications

Current progress and mechanisms of bone metastasis in lung cancer: a narrative review

Current progress and mechanisms of bone metastasis in lung cancer: a narrative review

Research progress on the molecular mechanisms of hepatic metastasis in lung cancer: a narrative review

Personal Medicine and Bone Metastases: Biomarkers, Micro-RNAs and Bone Metastases

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