5.9
CiteScore
5.9
Impact Factor

2017 Vol. 44, No. 8

Perspective
Mitochondrial replacement techniques or therapies (MRTs) to improve embryo development and to prevent mitochondrial disease transmission
Xiang-Hong Ou, Qing-Yuan Sun
2017, 44(8): 371-374. doi: 10.1016/j.jgg.2017.07.003
Abstract (106) HTML PDF (6)
Abstract:
Original research
The role of GLI2-ABCG2 signaling axis for 5Fu resistance in gastric cancer
Beiqin Yu, Dongsheng Gu, Xiaoli Zhang, Bingya Liu, Jingwu Xie
2017, 44(8): 375-383. doi: 10.1016/j.jgg.2017.04.008
Abstract (101) HTML PDF (2)
Abstract:
Gastric cancer is a leading cause of cancer-related mortality worldwide, and options to treat gastric cancer are limited. Fluorouracil (5Fu)-based chemotherapy is frequently used as a neoadjuvant or an adjuvant agent for gastric cancer therapy. Most patients with advanced gastric cancer eventually succumb to the disease despite the fact that some patients respond initially to chemotherapy. Thus, identifying molecular mechanisms responsible for chemotherapy resistance will help design novel strategies to treat gastric cancer. In this study, we discovered that residual cancer cells following 5Fu treatment have elevated expression of hedgehog (Hg) target genesGLI1 and GLI2, suggestive of Hh signaling activation. Hh signaling, a pathway essential for embryonic development, is an important regulator for putative cancer stem cells/residual cancer cells. We found that high GLI1/GLI2 expression is associated with some features of putative cancer stem cells, such as increased side population. We demonstrated that GLI2 knockdown sensitized gastric cancer cells to 5Fu treatment, decreased ABCG2 expression, and reduced side population. Elevated GLI2 expression is also associated with an increase in tumor sphere size, another marker for putative cancer stem cells. We believe that GLI2 regulates putative cancer stem cells through direct regulation of ABCG2. ABCG2 can rescue the GLI2 shRNA effects in 5Fu response, tumor sphere formation and side population changes, suggesting that ABCG2 is an important mediator for GLI2-associated 5Fu resistance. The relevance of our studies to gastric cancer patient care is reflected by our discovery that high GLI1/GLI2/ABCG2 expression is associated with a high incidence of cancer relapse in two cohorts of gastric cancer patients who underwent chemotherapy (containing 5Fu). Taken together, we have identified a molecular mechanism by which gastric cancer cells gain 5Fu resistance.
Cold-induced retrotransposition of fish LINEs
Shue Chen, Mengchao Yu, Xu Chu, Wenhao Li, Xiujuan Yin, Liangbiao Chen
2017, 44(8): 385-394. doi: 10.1016/j.jgg.2017.07.002
Abstract (96) HTML PDF (2)
Abstract:
Classes of retrotransposons constitute a large portion of metazoan genome. There have been cases reported that genomic abundance of retrotransposons is correlated with the severity of low environmental temperatures. However, the molecular mechanisms underlying such correlation are unknown. We show here by cell transfection assays that retrotransposition (RTP) of a long interspersed nuclear element (LINE) from an Antarctic notothenioid fishDissostichus mawsoni (dmL1) could be activated by low temperature exposure, causing increased dmL1 copies in the host cell genome. The cold-induced dmL1 propagation was demonstrated to be mediated by the mitogen-activated protein kinases (MAPK)/p38 signaling pathway, which is activated by accumulation of reactive oxygen species (ROS) in cold-stressed conditions. Surprisingly, dmL1 transfected cells showed an increase in the number of viable cells after prolonged cold exposures than non-transfected cells. Features of cold inducibility of dmL1 were recapitulated in LINEs of zebrafish origin both in cultured cell lines and tissues, suggesting existence of a common cold-induced LINE amplification in fishes. The findings reveal an important function of LINEs in temperature adaptation and provid insights into the MAPK/p38 stress responsive pathway that shapes LINE composition in fishes facing cold stresses.
Activation of catalase activity by a peroxisome-localized small heat shock protein Hsp17.6CII
Guannan Li, Jing Li, Rong Hao, Yan Guo
2017, 44(8): 395-404. doi: 10.1016/j.jgg.2017.03.009
Abstract (142) HTML PDF (5)
Abstract:
Plant catalases are important antioxidant enzymes and are indispensable for plant to cope with adverse environmental stresses. However, little is known how catalase activity is regulated especially at an organelle level. In this study, we identified that small heat shock protein Hsp17.6CII (AT5G12020) interacts with and activates catalases in the peroxisome of Arabidopsis thaliana. Although Hsp17.6CII is classified into the cytosol-located small heat shock protein subfamily, we found that Hsp17.6CII is located in the peroxisome. Moreover, Hsp17.6CII contains a novel non-canonical peroxisome targeting signal 1 (PTS1), QKL, 16 amino acids upstream from the C-terminus. The QKL signal peptide can partially locate GFP to peroxisome, and mutations in the tripeptide lead to the abolishment of this activity. In vitro catalase activity assay and holdase activity assay showed that Hsp17.6CII increases CAT2 activity and prevents it from thermal aggregation. These results indicate that Hsp17.6CII is a peroxisome-localized catalase chaperone. Overexpression of Hsp17.6CII conferred enhanced catalase activity and tolerance to abiotic stresses in Arabidopsis. Interestingly, overexpression of Hsp17.6CII in catalase-deficient mutants, nca1-3 and cat2 cat3, failed to rescue their stress-sensitive phenotypes and catalase activity, suggesting that Hsp17.6CII-mediated stress response is dependent on NCA1 and catalase activity. Overall, we identified a novel peroxisome-located catalase chaperone that is involved in plant abiotic stress resistance by activating catalase activity.
Letter to the editor
Oocyte-like cells induced from CD34-positive mouse hair follicle stem cells in vitro
Yuan-Chao Sun, Wei Ge, Fang-Nong Lai, Rui-Qian Zhang, Jun-Jie Wang, Shun-Feng Cheng, Wei Shen, Paul W. Dyce
2017, 44(8): 405-407. doi: 10.1016/j.jgg.2017.08.001
Abstract (100) HTML PDF (3)
Abstract:
FERM domain phosphorylation and endogenous 3′UTR are not essential for regulating the function and subcellular localization of polarity protein Crumbs
Haowei Cao, Rui Xu, Qiping Shi, Dandan Zhang, Juan Huang, Yang Hong
2017, 44(8): 409-412. doi: 10.1016/j.jgg.2017.08.002
Abstract (100) HTML PDF (2)
Abstract: