Glycine metabolomic changes induced by anticancer agents in A549 cells

Amino Acids - Glycine plays a key role in rapidly proliferating cancer cells such as A549 cells. Targeting glycine metabolism is considered as a potential means for cancer treatment. However, the...     

Pleiotropic function of intersectin homologue Cin1 in Cryptococcus neoformans

The manifestation of virulence traits in Cryptococcus neoformans is thought to rely on intracellular transport, a process not fully explored in this pathogenic fungus. Through interaction cloning, we identified a multi‐modular protein, Cin1 (cryptococcal intersectin 1), whose domain structure is similar to that of the human endocytic protein ITSN1. Cin1 contains an N‐terminal EH domain, a central coiled‐coil region, a WH2 domain, two SH3 domains and a C‐terminal RhoGEF (DH)‐PH domain. Interestingly, alternative mRNA splicing resulted in two Cin1 isoforms, and Cin1 homologues are also restricted to basidiomycetous fungi. Disruption of the CIN1 gene had a pleiotropic effect on growth, normal cytokinesis, intracellular transports and the production of several virulence factors. Additionally, Cin1 interacts with cryptococcal Cdc42 and Wsp1 (a WASP homologue) proteins in vitro, suggesting a conserved role in the regulation of the actin cytoskeleton. However, deletion of RhoGEF or SH3 and RhoGEF domains did not result in any phenotypic changes, suggesting that functional redundancy exists in proteins containing similar domains or that the activities by other domains are necessary for Cin1 function. Our study presents the first evidence of a multi‐modular protein whose function in intracellular transport underlies the growth, differentiation and virulence of a pathogenic microorganism.     

Ghrelin reduces injury of hippocampal neurons in a rat model of cerebral ischemia/reperfusion

Ghrelin, an acyl-peptide gastric hormone and an endogenous ligand for growth hormone secretagogue (GHS) receptor 1a (GHS-R 1a) exerts multiple functions. It has been reported that synthetic GHS-hexarelin reduces injury of cerebral cortex and hippocampus after brain hypoxia-ischemia in neonatal rats. However, the effect of ghrelin in tolerance of the brain tissues to cerebral ischemia/reperfusion (I/R) injury has not been studied. The aim of the present study was to examine whether ghrelin have potential protective effect on hippocampal neurons of rats against I/R injury. I/R injury was induced by a modified four-vessel occlusion model. Ghrelin was administered intraperitoneally after the insult. Histological damage of the neurons was determined with hematoxylin-eosin (H&E) staining and assay of the neuronal apoptosis was performed by terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick-end labeling (TUNEL). The results showed that I/R decreased the number of surviving neurons and induced apoptosis of the neurons in CA1 area of the hippocampus in rats. In contrast, administration of ghrelin significantly increased the number of surviving neurons and reduced the number of TUNEL-positive apoptotic neurons in the equivalent areas after I/R. In conclusion, the present data provide evidence for the first time that ghrelin can exert a neuroprotective role in vivo in the tolerance of hippocampal neurons to I/R injury, and that the mechanism underlying this effect involves an anti-apoptotic property of ghrelin.     

The quorum-sensing system in a plant bacterium Mesorhizobium huakuii affects growth rate and symbiotic nodulation

Mesorhizobium huakuii is a free-living bacterium which is capable of establishing a specific symbiotic relationship with Astragalus sinicus, an important winter green manure widely used in Eastern Asia, allowing for nitrogen fixing during this process. Previous studies demonstrate that M.␣huakuii produces quorum-sensing molecules at high cell density and quorum sensing plays a role in biofilm formations. In this study, we isolated and characterized two quorum-sensing deficient mutants in M. huakuii. Analysis of the flanking region of transposon insertions indicated that autoinducer synthase related genes are not homologous to acyl homoserine lactone (AHL) synthase genes that are shared among many Gram-negative bacteria, but related to peptide synthesis, indicating that M. huakuii quorum-sensing signals are distinct from AHLs. Compared with the wild-type strains, these quorum-sensing deficient mutants promoted their growth rate and were defective in nodule formation on host plants, indicative of a critical role of quorum sensing in M.␣huakuii during the host–bacterium symbiotic interaction.Yijing Gao and Zengtao Zhong contributed equally to this work.     

Ablation of Vacuole Protein Sorting 18 (Vps18) Gene Leads to Neurodegeneration and Impaired Neuronal Migration by Disrupting Multiple Vesicle Transport Pathways to Lysosomes

Intracellular vesicle transport pathways are critical for neuronal survival and central nervous system development. The Vps-C complex regulates multiple vesicle transport pathways to the lysosome in lower organisms. However, little is known regarding its physiological function in mammals. We deleted Vps18, a central member of Vps-C core complex, in neural cells by generating Vps18^F/F; Nestin-Cre mice (Vps18 conditional knock-out mice). These mice displayed severe neurodegeneration and neuronal migration defects. Mechanistic studies revealed that Vps18 deficiency caused neurodegeneration by blocking multiple vesicle transport pathways to the lysosome, including autophagy, endocytosis, and biosynthetic pathways. Our study also showed that ablation of Vps18 resulted in up-regulation of β1 integrin in mouse brain probably due to lysosome dysfunction but had no effects on the reelin pathway, expression of N-cadherin, or activation of JNK, which are implicated in the regulation of neuronal migration. Finally, we demonstrated that knocking down β1 integrin partially rescued the migration defects, suggesting that Vps18 deficiency-mediated up-regulation of β1 integrin may contribute to the defect of neuronal migration in the Vps18-deficient brain. Our results demonstrate important roles of Vps18 in neuron survival and migration, which are disrupted in multiple neural disorders.     

iASPPsv antagonizes apoptosis induced by chemotherapeutic agents in MCF-7 cells and mouse thymocytes

iASPP was an inhibitory member of ASPP family and could specifically inhibit the apoptotic function of p53. iASPPsv was identified by our lab as the short isoform of iASPP, which encoded a 407aa protein and highly matched the carboxyl terminus of iASPP. In this study, iASPPsv was stably transfected into the breast cancer cell line MCF-7 by means of lentivirus to explore the effects of iASPPsv on biological functions of MCF-7. Thymocytes from iASPP/iASPPsv transgenic mice were also used to explore the effects of iASPP/iASPPsv on cell biological function. The results demonstrated that iASPPsv antagonized the growth inhibition induced by etoposide (VP-16) in MCF-7 cells. iASPPsv also down-regulated proapoptotic genes (Bax, Puma and Noxa) expression to inhibit apoptosis caused by VP-16. Moreover, iASPP and iASPPsv could both help the thymocytes of transgenic mice to resist the growth inhibition and apoptosis caused by dexamethasone (Dex) or VP-16. At the same time, DNA double strand break damage accumulated in either iASPPsv MCF-7 cells or iASPP/iASPPsv thymocytes. These findings showed that iAPSS/iASPPsv reduced the growth inhibition and apoptosis induced by Dex or VP-16, with DNA damage accumulating which might promote the pathogenesis and/or progression of cancer.     

Heterogeneous evolutionary rates of Pi2/9 homologs in rice

ABSTRACT: BACKGROUND: The Pi2/9 locus contains multiple nucleotide binding site--leucine-rich repeat (NBS-LRR) genes in the rice genome. Although three functional R-genes have been cloned from this locus, little is known about the origin and evolutionary history of these genes. Herein, an extensive genome-wide survey of Pi2/9 homologs in rice, sorghum, Brachypodium and Arabidopsis, was conducted to explore this theme. RESULTS: In our study, 1, 1, 5 and 156 Pi2/9 homologs were detected in Arabidopsis, Brachypodium, sorghum and rice genomes, respectively. Two distinct evolutionary patterns of Pi2/9 homologs, Type I and Type II, were observed in rice lines. Type I Pi2/9 homologs showed evidence of rapid gene diversification, including substantial copy number variations, obscured orthologous relationships, high levels of nucleotide diversity or/and divergence, frequent sequence exchanges and strong positive selection, whereas Type II Pi2/9 homologs exhibited a fairly slow evolutionary rate. Interestingly, the three cloned R-genes from the Pi2/9 locus all belonged to the Type I genes. CONCLUSIONS: Our data show that the Pi2/9 locus had an ancient origin predating the common ancestor of gramineous species. The existence of two types of Pi2/9 homologs suggest that diversifying evolution should be an important strategy of rice to cope with different types of pathogens. The relationship of cloned Pi2/9 genes and Type I genes also suggests that rapid gene diversification might facilitate rice to adapt quickly to the changing spectrum of the fungal pathogen M. grisea. Based on these criteria, other potential candidate genes that might confer novel resistance specificities to rice blast could be predicted.     

水稻条叶枯病毒(RStV)基因组组分4的克隆与序列分析

利用RTPCR技术合成并扩增了水稻条叶枯病毒(RStV)中国云南分离物基因组组分4的全长cDNA,将PCR产物克隆在载体pCRII上,并进行全序列测定,所得核苷酸序列及推测的氨基酸序列与日本分离物T进行比较。结果表明,在核苷酸水平,两分离物的vORF、vcORF及基因间非编码区序列的同源性分别为94.9%、94.1%、86.1%,5’端非编码区序列相同,而3’非编码区同源性为96.1%,仅有两个核苷酸不同;在氨基酸水平,vORF及vcORF编码蛋白的同源性分别为99.4%和98.3%。可见,编码区的大小及其氨基酸序列和两末端序列都是很保守的。因此,中国云南分离物Y与日本分离物T可能有很近的亲缘关系。