Gene Expression Pattern of Signal Transduction in Chronic Myeloid Leukemia

To explore the transcriptional gene expression profiles of signaling pathway in Chronic myeloid leukemia （CML）, a series of cDNA microarray chips were tested. The results showed that differentially expressed genes related to singal transduction in CML were screened out and the genes involved in Phosphoinositide 3-kinases （PI3K）, Ras-MAPK （mitogen-activated protein kinase） and other signaling pathway genes simultaneously. The results also showed that most of these genes were up-expression genes , which suggested that signal transduction be overactivated in CML. Further analysis of these differentially expressed signal transduction genes will be helpful to understand the molecular mechanism of CML and find new targets of treatment.

Down-regulation and It's Molecular Biology of Nm-23H1 gene Transfection on Ras-to-MAPK Signal Transduction Pathway in Human High-metastatic Large Cell Lung Cancer Cell Line L9981

Backgroud and Objective Tumor metastasis is not only the malignant marker and characteristics of lung cancer, but also the key cause of failure to cure and lose their life of the patients

Involvement of cAMP in ABA Signal Transduction in Tobacco Suspension Cells

Abscisic acid (ABA) plays an important role in plant growth and developmental processes. Although some ABA signal molecules, such as cADPR, Ca2+, etc., have been reported, there. was no evidence proving the involvement of cAMP in A-B-A, signal transduction. In this present study, the constructed gene ( rd29A-GUS) was transformed into Nicotiana tabacum, and calli was induced from the transgenic plant. The suspension cells obtained from the callus grew well and uniformly. Treatment of the suspension cells with ABA led to an increase in GUS activity, indicating that these transgenic suspension cells are useful for the study of ABA signaling. Addition of nicotinamide (cADPR inhibitor) or U-73122 (phospholiphase C inhibitor) could only partially inhibit the increase of GUS activity elicited by ABA. The inhibitory effect of nicotinamide was enhanced by application of K252a (inhibitor of protein kinase). Treatment of the suspension cells with 8-Br-cAMP, a membrane-permeable analogue of cAMP, could partially replace the effect of ABA. Furthermore, intracellular addition of IBMX (phosphodiesterase inhibitor) mimicked die effect of exogenous cAMP on the deduction of expression of rd29A promoter. These results suggested that cAMP was an important messenger in ABA signal transduction in tobacco suspension cell.

Roles of ABA Signal Transduction during Higher Plant Seed Development and Germination

ABA is one of the 5 phytohormones in higher plants, which is also the most important hormone that regulates higher plants in response to environmental stress, by ABA signal transduction. Understanding ABA signal transduction at the molecular level is crucial to biology and ecology, and rational breeding complied with corresponding eco-environmental changes. Great advancements have taken place over the past 10 years by application of the Arabidopsis experimental system. Many components involved in ABA signal transduction have been isolated and identified and a clear overall picture of gene expression and control for this transduction has become an accepted fact. On the basis of the work in our laboratory, in conjunction with the data available at the moment, the authors have attempted to integrate ABA signal transduction pathways into a common one and give some insights into the relationship between ABA signal transduction and other hormone signal transduction pathways, with an emphasis upon the ABA signal transduction during higher plant seed development. A future challenge in this field is that different experimental systems are applied and various receptors and genes need to be characterized through the utilization of microarray chips.

Chemical Physics in Living Cells-using Light to Visualize and Control Intracellular Signal Transduction

Cells are crowded microenvironments filled with macromolecules undergoing constant phys- ical and chemical interactions. The physicochemical makeup of the cells aff）cts various cellular responses, determines cell-cell interactions and influences cell decisions. Chemical and physical properties diff）r between cells and within cells. Moreover, these properties are subject to dynamic changes in response to environmental signals, which often demand adjustments in the chemical or physical states of intracellular molecules. Indeed, cellular responses such as gene expression rely on the faithful relay of information from the outside to the inside of the cell, a process terrned signal transduction. The signal often traverses a complex path across subcellular spaces with variable physical chemistry, sometimes even influencing it. Understanding the molecular states of such signaling molecules and their intracellular environments is vital to our understanding of the cell. Exploring such intricate spaces is possible today largely because of experimental and theoretical tools. Here, we focus on one tool that is commonly used in chemical physics studies light. We summarize recent work which uses light to both visualize the cellular environment and also control intracel- lular processes along the axis of signal transduction. We highlight recent accomplishments in optical microscopy and optogenetics, an emerging experimental strategy which utilizes light to control the molecular processes in live cells. We believe that optogenetics lends un- precedented spatiotemporal precision to the manipulation of physicochemical properties in biological contexts. We hope to use this work to demonstrate new opportunities for chemical physicists who are interested in pursuing biological and biomedical questions.

Characteristics of Lymphocyte Nuclear Factor-κB Signal Transduction Kinase Expression in Aging Process and Regulatory Effect of Epimedium Flavonoids

Objective：To study the characteristics of lymphocyte nuclear factor kappa B（NF-κB） signal transduction kinase-related molecular mRNA differential expressions at various month age segments in aging process and the intervening effect of Epimedium flavonoids（EF） on it.Methods：Sixty SD rats were divided into six groups,according to animals＇ age,i.e.,the 3 days（d） group,the 4 months（m） group,the 10 m group,the 18 m group,the 27 m group,and the 27 m＋EF group.RNA was extracted from separated splenic lymphocytes. Adopting NF-κB signal path functional genome oligonucleotide gene-chip（128 related genes）,the integral characteristics and differences of NF-κB signal transduction kinase-related mRNA expressions were determined, and the intervening effect of EF was examined.Results：The mean level of the NF-κB signal transduction kinase-related mRNA expressions in rats＇ splenic lymphocytes lowered with aging;the highest expression was presented at 3 d after birth,and then,it lowered gradually,with the lowest level at 18 m or 27 m.After EF intervention,the expression level was raised to the 10-18 m level in the aged rats.Conclusion：The changing rules of lymphocyte NF-κB-signal-transduction-kinase-related mRNA expressions in various stages of aging are helpful for selecting the well time for preventing and intervening aging,and will also give a hint to the molecular index for assessment of senility retarding researches.

Gibberellin Signal Transduction in Rice

In the past decade, significant knowledge has accumulated regarding gibberellin （GA） signal transductlon In rice as a result of studies using multiple approaches, particularly molecular genetics. The present review highlights the recent developments In the identification of GA signaling pathway components, the discovery of GA-Induced destructlon of GA signaling repressor （DELLA protein）, and the possible mechanism underlying the regulation of GA- responsive gene expression in rice.

The Regulating Effect of the nm23-H1 Gene for PKA Signal Pathway of Lung Cancer Cell and Its Molecular Mechanism

Backgroud and Objective Lung cancer has become the most frenquent malignant tumor in the world which its mortality and morbidity is increasing fastest among all the cancers。

Down-regulation and It's Molecular Biology of Nm-23H1 Gene Transfection on PKC Signal Path-way in Human High-metastatic Large Cell Lung Cancer Cell Line L9981

Backgroud and Objective At present, lung cancer has become the most frenquent malignant tumor in China and in the world which its mortality and morbidity is increasing fastest.

The Pathogenesis and Treatment Progress of Androgenic Alopecia

Androgenic alopecia, also known as seborrheic alopecia, is the most common hair loss disorder in dermatology clinics, mainly characterized by hair follicle miniaturization and progressive hair loss. The etiology and pathogenesis of androgenic alopecia are not clear, but may be related to heredity and androgen metabolism. Currently, minoxidil and finasteride are the only two drugs approved by the U.S. Food and Drug Administration (FDA) for AGA treatment, other treatments include oral minoxidil, hair transplantation, low energy laser therapy (LLLT), platelet-rich plasma (PRP), Chinese medicine microneedles, and combination therapy. With the development of medicine and science, we have ushered in the era of biologics and targeted therapy. In recent years, a variety of signaling pathways for androgenic alopecia have been found, which may provide a basis for targeted therapy for androgenic alopecia.

长链非编码RNA与骨性关节炎

背景:骨性关节炎作为中老年常见疾病,发病机制尚不清晰。长链非编码RNA通过多种途径参与骨性关节炎发病过程,如调控翻译、促进或者抑制mRNA表达、吸附miRNA等。目的:综述多种长链非编码RNA在骨性关节炎中的作用机制及研究进展。方法:检索中国知网、万方数据库、维普数据库、PubMed、Web of Science和Sciencedirect数据库,以“osteoarthritis,degenerative joint disease,degenerative arthritis,OA,LncRNA,long non-coding RNA,long noncoding RNA,long intergenic non-coding RNA”为英文检索词,以“骨性关节炎,骨关节炎,OA,长链非编码RNA,长链非编码核糖核酸,LncRNA”为中文检索词,检索1976年至2024年5月发表的所有相关文献,并对其进行筛选、归纳、分析、总结,最后纳入93篇文献进行综述。结果与结论:①收集了目前与骨性关节炎关系研究较多且较深入的25种长链非编码RNA;②长链非编码RNA可以充当miRNA的分子海绵,作为竞争性内源性RNA竞争性吸附miRNA,进而影响下游靶点;③长链非编码RNA可以调控软骨细胞的凋亡与增殖、软骨细胞外基质降解以及炎症反应等生理病理进程;④长链非编码RNA有望成为骨性关节炎临床诊断及治疗预后的生物标志物和潜在治疗靶点,未来可能会成为骨性关节炎临床治疗的新策略。

Cell signaling mechanisms and metabolic regulation of germination and dormancy in barley seeds

During germination of barley(Hordeum vulgare L.) seeds, important morphological and physiological changes take place, including development of organs and tissues and activation of metabolic pathways. Germination and dormancy of seeds are regulated by abscisic acid, gibberellins, reactive oxygen species(ROS), reactive nitrogen species(RNS)and several other factors. Activities of ascorbate-glutathione cycle enzymes, responsible for scavenging ROS, strongly increase. Catalase and superoxide dismutase activities, also scavenging ROS, decrease at the onset of seed germination and then increase. With the increase in aerobic metabolism after radicle protrusion, the activities of the fermentation enzymes lactate and alcohol dehydrogenase decline rapidly. The RNS-scavenging activity of S-nitrosoglutathione reductase decreases in the course of seed germination, in concert with elevation of nitric oxide production and protein nitrosylation. This activity supports the role of RNS in regulating seed germination. Transcription of various genes at different phases of seed germination exhibits phase-specific changes. During imbibition, genes involved in cell wall metabolism are highly expressed; in the middle phase of seed germination before radicle protrusion, genes involved in amino acid synthesis, protein synthesis, and transport and nucleic acid synthesis are upregulated significantly, and after radicle protrusion, genes involved in photosynthetic metabolism are induced. In summary, signal transduction and metabolic regulation of seed germination involve diverse reactions and complex regulation at different levels of metabolic organization.

Advance in Pathogenesis of Gout and Related Gene Polymorphism

Gout is an independent risk factor for hypertension,diabetes mellitus,hyperlipidemia,coronary heart disease and cerebral infarction.At present,the studies on the mechanism of gout at home and abroad have mainly focused on immune inflammation,gene polymorphism and related studies.Uric acid deposition or crystal precipitation activates phagocytes,fibroblasts and mast cells in synovium,produces IL-1β,TNF and chemokine IL-8(CXCL8),thereby activating neutrophils,urate crystal polyanion surface can be coated with immunoglobulins and other serum proteins as substrates for complement activation,complement substitution pathways and classical complement pathways to activate complements.Uric acid crystals activate inflammation-related signal transduction pathways including the activation of inflammation-related signal transduction pathway by uric acid crystals and TLRS/MyD88 signal transduction pathways.Gene polymorphism is related to inflammation and signaling pathway,EGF gene is closely related to gout inflammation,which may be involved in the regulation of gout inflammation,among which NLRP3 inflammatory signaling pathway and gene polymorphism have been deeply studied in the pathogenesis of gout,which is the main therapeutic target of anti-inflammatory and uric acid lowering.

Gene expression profiling defined pathways correlated with fibroblast cell proliferation induced by Opisthorchis viverrini excretory /secretory product

AIM： To investigate the mechanism of fibroblast cell proliferation stimulated by the Opisthorchis viverrini excretory/secretory （ES） product. METHODS： NIH-3T3, mouse fibroblast cells were treated with O. viverrini ES product by non-contact co-cultured with the adult parasites. Total RNA from NIH-3T3 treated and untreated with O. viverrini was extracted, reverse transcribed and hybridized with the mouse 15K complementary DNA （cDNA） array. The result was analyzed by ArrayVision version 5 and GeneSpring version 5 softwares. After normalization, the ratios of gene expression of parasite treated to untreated NIH-3T3 cells of 2-and more-fold upregulated was defined as the differentially expressed genes. The expression levels of the signal transduction genes were validated by semiquantitative SYBR-based real-time RT-PCR. RESULTS： Among a total of 15 000 genes/ESTs, 239 genes with established cell proliferation-related function were 2 fold-and more-up-regulated by O. viverrini ES product compared to those in cells without exposure to the parasitic product. These genes were classified into groups including energy and metabolism, signal transduction, protein synthesis and translation, matrix and structural protein, transcription control, cell cycle and DNA replication. Moreover, the expressions of serinethreonine kinase receptor, receptor tyrosine kinase and collagen production-related genes were up-regulated by O.viverrini ES product, The expression level of signal transduction genes, pkC, pdgfra, jak 1, eps 8, tgfβ 1/4,strap and h ras measured by real-time RT-PCR confirmed their expression levels to those obtained from cDNA array. However, only the up-regulated expression of pkC,eps 8 and tgfβ3 1/4 which are the downstream signaling molecules of either epidermal growth factor （EGF） or transforming growth factor-β （TGF-β） showed statistical significance （P 〈 0.05）.CONCLUSION： O. viverrini ES product stimulates the significant changes of gene expression in several functional categories and these mainly include transcripts related to cell proliferation. The TGF-β and EGF signal transduction pathways are indicated as the possible pathways of O. viverrini-driven cell proliferation.

Immediate-early Inducible Function in Upstream Region of junB Gene

Objective To analyze the upstream region of radiation-induced junB gene. Methods Four plasmids containing 250 bp, 590 bp, 900 bp and 1650 bp, and CAT reporter gene were constructed separately and introduced to L8704 cells. The cells were irradiated with 2 Gy X-rays and incubated at different intervals. Total RNA was extracted from the cells and fluctuation of the CAT mRNA level was assessed by the RNA ratio of CAT/β-actin measured by quantitative Northern blot hybridization. Results CAT mRNA expression containing 900 bp and 1560 bpjunB promoter remarkably and rapidly increased, and reached its peak 30min after 2 Gy X-my irradiation. Conclusions 590-900 bp fragments located in the upstream region of junB gene play an important role in the early process of cells against radiation.

Blockage of IGF-1R signaling sensitizes urinary bladder cancer cells to mitomycin-mediated cytotoxicity

A major problem which is poorly understood in the management of bladder cancer is low sensitivity to chemotherapy and high recurrence after transurethral resection. Insulin-like growth factor 1 receptor (IGF-1R) signaling plays a very important role in progression, invasion and metastasis of bladder cancer cells. In this study, we investigated whether IGF-1R was involved in the growth stimulating activity and drug resistance of bladder cancer cells. The results showed: The mRNAs of IGF-1, IGF-2 and IGF-1R were strongly expressed in serum-free cultured T24 cell line, whereas normal urothelial cells did not express these factors/receptors or only in trace levels; T24 cell responded far better to growth stimulation by IGF-1 than did normal urothelial cells; blockage of IGF1R by antisense oligodeoxynucleotide (ODN) significantly inhibited the growth of T24 cell and enhanced sensitivity and apoptosis of T24 cells to mitomycin (MMC). These results suggested that blockage of IGF-IR signaling might potentially contribute to the treatment of bladder cancer cells which are insensitive to chemotherapy.

Preliminary Investigation on Regulating Effects of Different TCM Treatments on Transcription of the Correlated Genes of Liver Cancer in Rats

The regulating effects of TCM treatments including clearing away heat and toxic materials,promoting blood circulation and removing blood stasis,and strengthening the spleen and regulating qi on the oncogene transcription were observed in the liver cancer model rats.The preliminary results indicated that the mRNA levels of H-ras N-ras and K-ras,and signal molecules correlated with the ras/MAPK signal transduction pathway were down-regulated by the different TCM treatments in varying degrees.Also,the regulating effects of the treatments on differently-displayed genes were discrepant.It is suggested that the molecular mechanisms of the TCM treatments for liver cancer was complex with different target genes.

Genetic variations in colorectal cancer risk and clinical outcome

Colorectal cancer (CRC) has an apparent hereditary component, as evidenced by the well-characterized genetic syndromes and family history associated with the increased risk of this disease. However, in a large fraction of CRC cases, no known genetic syndrome or family history can be identified, suggesting the presence of “missing heritability” in CRC etiology. The genome-wide association study (GWAS) platform has led to the identification of multiple replicable common genetic variants associated with CRC risk. These newly discovered genetic variations might account for a portion of the missing heritability. Here, we summarize the recent GWASs related to newly identified genetic variants associated with CRC risk and clinical outcome. The findings from these studies suggest that there is a lack of understanding of the mechanism of many single nucleotide polymorphisms (SNPs) that are associated with CRC. In addition, the utility of SNPs as prognostic markers of CRC in clinical settings remains to be further assessed. Finally, the currently validated SNPs explain only a small fraction of total heritability in complex-trait diseases like CRC. Thus, the “missing heritability” still needs to be explored further. Future epidemiological and functional investigations of these variants will add to our understanding of CRC pathogenesis, and may ultimately lead to individualized strategies for prevention and treatment of CRC.

A short review of the genes involved in the development and progression of colorectal cancer

The extent and aggression of colorectal cancer is a worldwide public health threat.Extensive research has been conducted on the pre-requisites leading to this fatal cancer.An array of genes along with their mutations and the signal transduction pathways leading to the cellular transformation into the cancerous cells have been investigated.Based on the knowledge gained so far,present review shortly discussed the role of the major genes especially those are involved in instigating abnormalities in the cellular cycles,cellular proliferation and differentiation.A simple but novel molecular scheme of the colorectal cancer development has also been plotted.