The SMARCA4R1157W mutation facilitates chromatin remodeling and confers PRMT1/SMARCA4 inhibitors sensitivity in colorectal cancer.

Genomic studies have demonstrated a high frequency of genetic alterations in components of the SWI/SNF complex including the core subunit SMARCA4. However, the mechanisms of tumorigenesis driven by SMARCA4 mutations, particularly in colorectal cancer (CRC), remain largely unknown. In this study, we identified a specific, hotspot mutation in SMARCA4 (c. 3721C>T) which results in a conversion from arginine to tryptophan at residue 1157 (R1157W) in human CRC tissues associated with higher-grade tumors and controls CRC progression. Mechanistically, we found that the SMARCA4R1157W mutation facilitated its recruitment to PRMT1-mediated H4R3me2a (asymmetric dimethylation of Arg 3 in histone H4) and enhanced the ATPase activity of SWI/SNF complex to remodel chromatin in CRC cells. We further showed that the SMARCA4R1157W mutant reinforced the transcriptional expression of EGFR and TNS4 to promote the proliferation of CRC cells and patient-derived tumor organoids. Importantly, we demonstrated that SMARCA4R1157W CRC cells and mutant cell-derived xenografts were more sensitive to the combined inhibition of PRMT1 and SMARCA4 which act synergistically to suppress cell proliferation. Together, our findings show that SMARCA4-R1157W is a critical activating mutation, which accelerates CRC progression through facilitating chromatin recruitment and remodeling. Our results suggest a potential precision therapeutic strategy for the treatment of CRC patients carrying the SMARCA4R1157W mutation.

Expression and purification of ecdysteroid-regulated protein from Chinese mitten crab Eriocheir sinensis in E. coli.

The glutathione S-transferase (GST) fusion protein system is widely used for high-level expression and efficient purification of recombinant proteins from bacteria. The goal of this study was to clone, efficiently express and purify the ecdysteroid-regulated protein (ERP) in the form of a GST fusion protein. The mature peptide-coding cDNA fragment was extracted from Chinese mitten crap (Eriocheir sinensis), and then after using PCR to obtain the open reading frame, a recombinant plasmid designated pGEX-4T-1_ERP was successfully generated and showed to efficiently express the ERP fusion protein as determined by SDS-PAGE. The resulting expressed protein was successfully purified by a combination of affinity and conventional chromatographic methods. After purification, the recombinant protein showed the expected size of 41 kDa on SDS-PAGE gels which was further confirmed by mass spectrometry and western blotting. Purification of recombinant protein was achieved by fast protein liquid chromatography. About 2.4 mg/l recombinant protein with purity more than 80 % was obtained.

Cloning, promoter analysis and expression of the tumor necrosis factor receptor-associated factor 6 (TRAF6) in Japanese scallop (Mizuhopecten yessoensis).

Tumor necrosis factor receptor-associated factor 6 (TRAF6) is a key adaptor molecule for the tumor necrosis factor superfamily and Toll-like/interleukin-1 receptor superfamily. It plays an important role in innate and adaptive immunity. The TRAF6 of Japanese scallop Mizuhopecten yessoensis (designated as MyTRAF6) was identified and characterized in this study. The full-length cDNA of MyTRAF6 was 2,407 bp, which consisted of 239-bp 5'-terminal untranslated region, 1,974-bp open reading frame encoding a polypeptide of 657 amino acids, 194-bp of 3'-terminal untranslated region followed by a canonical polyadenylation signal sequence AATAAA and a poly (A) tail. The predicted amino acid sequence of MyTRAF6 contained the characteristic motifs of TRAF proteins, including a Zinc finger of RING-type, two Zinc fingers of TRAF-type, and a MATH (meprin and TRAF homology) domain. It had an overall identity of 43-96% with those of other TRAF6s, the highest identity (96%) with Chlamys farreri TRAF6, and the least identity (43%) with Meleagris gallopavo TRAF6. Phylogenetic analysis classified MyTRAF6 as a true TRAF6 ortholog. In addition, the promoter of MyTRAF6 was also identified by genome walking. It contained several potential transcription factor-binding sites and three single nucleotide polymorphisms. qRT-PCR analysis revealed that MyTRAF6 was highly expressed in hemocytes of adult M. yessoensis. MyTRAF6 transcript level in the hemocytes reached a maximum 6 h after Vibrio anguilarum challenge. The results indicated that MyTRAF6 may fulfill an important function during M. yessoensis bacterial infection. It could be a key effector molecule involved in the innate defense of molluscs.