RESUMEN
This study was designed to evaluate the anti-inflammatory effect of recombinant human kallistatin (Kal) on ulcerative colitis (UC) in the mouse model. Acute colitis was induced by administration of 4% dextran sodium suffate (DSS) to KM mice for 7 days. The mice were then randomized into 5 groups:model control, Kal 0.2 mg·kg-1·d-1, 1.0 mg·kg-1·d-1 and 2.0 mg·kg-1·d-1 group, salazosulfapyridine (SASP) group. Ten age-matched normal KM mouse were administered with saline in the normal control. The weight, colon length, inflammation factor (MPO/SOD/MDA) and TNF-α/IL-10 levels among the five groups of mice were determined. The results showed that histological index score and MPO/MDA/TNF-α levels of high-dose Kal treatment group and SASP group were significantly lower compared with the model group (PPα/IL-10 levels and has some antioxidant activity.
RESUMEN
The potential of cancer immunotherapy has been demonstrated recently using the chimeric antigen receptors-engineered (CAR) T cells, in which B cell haematological malignancies was successfully treated in clinical trials. However, challenges remain in the translation of the potential benefits into therapy of other types of cancer with similar efficacy and safety. Excessive activation of genetically-modified T cells may cause severe toxicities, such as cytokine storm, on-target toxicities, and tumor lysis syndrome. Genomic integration of viral vectors may cause genetic toxicities due to insertional mutagenesis of important genes. Strategies to overcome these toxicities are proposed and discussed, including the use of suicide genes, combinatorial antigen recognition, on-switch, non-viral vector and other innovative gene therapy strategies, to enhance safety of this promising immunotherapy.
RESUMEN
Riboswitches are cis-acting domains located in mRNA sequences that could regulate gene expression by sensing small molecules without employing protein. Most known riboswitches in bacteria have naturally evolved to bind essential metabolite ligands and are involved in the regulation of critical genes that are responsible for the biosynthesis or transport of the cognate ligand. The riboswitch-mediated gene expression could be repressed by metabolite analogs, which caused bacterial growth inhibition or even death. A number of leading compounds targeting riboswitches have been discovered. A promising avenue for the development of new class of riboswitch-based antibiotics has been opened. Herein we reviewed the current findings of riboswitches that served as targets for antibacterial drug development and the underlying mechanisms. The development of high-throughput methods and rational drug design for riboswitch-specific drug discovery are relevant challenges are discussed. summarized.