Glioblastoma multiforme (GBM) is the commonest primary malignant brain tumor and has a remarkably weak prognosis. According to the aggressive form of GBM, understanding the accurate molecular mechanism associated with GBM pathogenesis is essential. Growth differentiation factor 15 (GDF‐15) belongs to transforming growth factor‐β superfamily with important roles to control biological processes. It affects cancer growth and progression, drug resistance, and metastasis. It also can promote stemness in many cancers, and also can stress reactions control, bone generation, hematopoietic growth, adipose tissue performance, and body growth, and contributes to cardiovascular disorders. The role GDF‐15 to develop and progress cancer is complicated and remains unclear. GDF‐15 possesses tumor suppressor properties, as well as an oncogenic effect. GDF‐15 antitumorigenic and protumorigenic impacts on tumor development are linked to the cancer type and stage. However, the GDF‐15 signaling and mechanism have not yet been completely identified because of no recognized cognate receptor.
Meningioma occurs most frequently as a benign tumor central nervous system that is common in old females. Radiation exposure and deletion of the NF2 gene are known risk factors. However, there is no consensus about the role of sex hormones. Meningiomas are usually benign tumors, but 6% can be anaplastic or atypical. Most asymptomatic patients do not require treatment, but complete surgical resection is recommended for symptomatic patients. If a tumor returns after being resected previously, it is recommended to be resected, followed by radiotherapy in some cases. Meningiomas (benign, atypical, and malignant) recurring after standard treatment fails could be treated with hormone therapy, chemotherapy, target therapy, and calcium channel blockers.
Subarachnoid hemorrhage (SAH) is most commonly seen in patients over 55 years of age and often results in a loss of many productive years. SAH has a high mortality rate, and survivors often suffer from early and secondary brain injuries. Understanding the pathophysiology of the SAH is crucial in identifying potential therapeutic agents. One promising target for the diagnosis and prognosis of SAH is circulating microRNAs, which regulate gene expression and are involved in various physiological and pathological processes. In this review, we discuss the potential of microRNAs as a target for diagnosis, treatment, and prognosis in SAH.
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