RESUMEN
Cancer is difficult to cure because of its heterogeneity, drug resistance and easy recurrence and metastasis. Revealing the molecular mechanism of cancer genesis and development, identifying new diagnostic markers and molecular therapeutic targets are undoubtedly effective strategies to solve the problems of early diagnosis, treatment and improvement of prognosis of cancer patients. More and more studies have shown that long non-coding RNA (IncRNA) is specifically expressed in human cancer and is a key regulator of cancer occurrence and development. Cytoskeleton regulator RNA (CYTOR) is a carcinogenic lncRNA found in recent years. CYTOR is highly expressed in many types of cancer and regulates the development of cancer through a variety of pathways, which may be an effective biomarker for early cancer diagnosis, molecular targeted therapy and prognosis assessment. This paper reviews the molecular regulatory mechanism and related biological characteristics of CYTOR in human cancer, in order to provide new scientific reference for clinical cancer diagnosis and treatment.
RESUMEN
Diabetes is a clinical syndrome caused by a variety of factors. It often causes multiple systemdamage, leading to chronic progressive lesions of the eye, kidney, blood vessels, heart, nerves and otherorgans. At present, its etiology and pathogenesis are not fully clarified, and there is a lack of effectivecure. Further exploration of the molecular regulatory mechanisms that drive diabetes and itscomplications, identifying specific biomarkers and molecular therapeutic targets, is undoubtedly aneffective strategy to prevent the onset and development of diabetes and improve the quality of life ofpatients. Long non-coding RNA (lncRNA) is an important regulator of body normal activity and diseasedevelopment. Abnormal expression and mutation are one of the main causes of diabetes and many otherdiseases. Nuclear paraspeckle assembly transcript 1 (NEAT1) is a newly discovered lncRNA molecule inrecent years. It has attracted much attention because of its important regulatory role and diverse biologicaleffects in diabetes and its complications. This article summarizes the molecular regulation mechanism andrelated biological functions of lncRNA NEAT1 in diabetes and its complications in order to provide a newscientific reference for early prevention, diagnosis and molecular targeted therapy of diabetes.