Kuan‐Ming Huang scite author profile

Chimeric antigen receptor (CAR)-based T-cell adoptive immunotherapy is a distinctively promising therapy for cancer. The engineering of CARs into T cells provides T cells with tumor-targeting capabilities and intensifies their cytotoxic activity through stimulated cell expansion and enhanced cytokine production. As a novel and potent therapeutic modality, there exists some uncontrollable processes which are the potential sources of adverse events. As an extension of this impactful modality, CAR-T cell-derived exosomes may substitute CAR-T cells to act as ultimate attackers, thereby overcoming some limitations. Exosomes retain most characteristics of parent cells and play an essential role in intercellular communications via transmitting their cargo to recipient cells. The application of CAR-T cell-derived exosomes will make this cell-based therapy more clinically controllable as it also provides a cell-free platform to diversify anticancer mediators, which responds effectively to the complexity and volatility of cancer. It is believed that the appropriate application of both cellular and exosomal platforms will make this effective treatment more practicable.

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Therapeutic Prospects of mRNA-Based Gene Therapy for Glioblastoma

Tang

Zhang

et al. 2019

Front. Oncol.

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The treatment of glioblastoma has been a big challenge for decades in the oncological field mainly owing to its unique biological characteristics, such as high heterogeneity, diffusing invasiveness, and capacity to resist conventional therapies. The mRNA-based therapeutic modality holds many superior features, including easy manipulation, rapid and transient expression, and adaptive convertibility without mutagenesis, which are suitable for dealing with glioblastoma's complexity and variability. Synthetic anticancer mRNAs carried by various vehicles act as the ultimate attackers of the tumor across biological barriers. In this modality, specifically targeted glioblastoma treatment can be guaranteed by adding targeting molecules at certain levels. The choice of mRNA-bearing vehicle and administration method is a fully patient-tailored selection. This review covers the advantages and possible limitations of mRNA-based gene therapy, the in vitro synthesis of mRNA, the feasible methods for synthetic mRNA delivery and clinical therapeutic prospects of mRNA-based gene therapy for glioblastoma.

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Protective effect of microRNA-138 against cerebral ischemia/reperfusion injury in rats

Tang

Yang

Cui

et al. 2016

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Abstract. MicroRNAs (miRs) serve a regulatory function in oxidative radical-mediated inflammation and apoptosis during ischemia/reperfusion (IR) injury. Lipocalin 2 (Lcn-2), a target protein of miR-138, is widely involved in the systemic response to IR injury. The aim of the present study was to investigate the association between miR-138 and Lcn-2 in a rat model of cerebral ischemia/reperfusion (CIR) injury and to verify the interaction between miR-138 and Lcn-2 in a PC12 cell model of hypoxia/reoxygenation injury. Reverse transcription-quantitative polymerase chain reaction and western blot analysis were used to detect the mRNA and protein expression levels of miR-138 and Lcn-2. Cell proliferation was determined by MTT assay. The results suggested that the expression of miR-138 was inversely correlated with the expression of Lcn-2 in the CIR rat model and the PC12 cells subjected to hypoxia and reoxygenation. The expression of Lcn-2 was inhibited by miR-138 mimics and enhanced by miR-138 inhibitors, thereby indicating that miR-138 functions as a negative regulator for Lcn-2 expression. This study provides an experimental basis for the further study of miR-138-based therapy for CIR injury.

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Kuan‐Ming Huang

Therapeutic potential of CAR-T cell-derived exosomes: a cell-free modality for targeted cancer therapy

Therapeutic Prospects of mRNA-Based Gene Therapy for Glioblastoma

Protective effect of microRNA-138 against cerebral ischemia/reperfusion injury in rats

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