The present study was carried out to establish an animal model, displaying long-term learning and memory dysfunction, since single intracerebroventricular (icv) injection of amyloid β peptide (Aβ) causes a short-term memory impairment. Male ICR mice were fed a high-cholesterol diet (HCD) containing 3% cholesterol, 1% corn oil and 0.5% cholic acid, and 1 week later, icv injected with Aβ1-42 (5 μg/head). Learning/ memory function was assessed via passive avoidance performances 1 day and 2, 4, and 6 weeks after Aβ1-42 injection, in addition to blood biochemical analyses for lipid profiles and hepatic function. Total cholesterol, lowdensity lipoproteins and hepatic dysfunction parameters markedly increased, while high-density lipoproteins were reduced following HCD feeding. Whereas single injection of Aβ induced temporary memory loss 1 day after administration, exhibiting full recovery after 2 weeks, Aβ treatment in combination with HCD feeding lasted the learning/memory impairment up to 6 weeks. Therefore, it is suggested that hypercholesterolemia augments Aβ-induced memory loss, and that Aβ injection plus HCD feeding could be a long-term memorydeficit model suitable for long-term treatment with drugs or stem cells.
The human ELAV(embryonic lethal abnormal vision)-like protein HuR stabilizes a certain group of cellular mRNAs that contain AU- ri ch elements in theil‘ 3’• untranslated region, Dysregulation of mRNA s tability may be relevant in tumor biology and may lead to abnormal expression of several proteins in malignant tumors, The aim of this study is to identify the differentially expressed proteins according to the functi onal activi ty of HuR Methods : We used stabl e expression of small interfering RNA(siRNA) of HuR gene to inhibit the expression of HuR in human ora l car cinoma cell lines‘ KB cell line and YD10B cell line‘ and compared the proteomic changes between s iRNA-treated and cont rol cell line using two-dimensional gel electrophoresis , Flow cytometry caliber scan(FACS) was employed to investigate the effects of HuR on cell apoptosis and proliferation , Results: Seventeen differentially expressed proteins between the two cell lines were identified by electrospray ioruzati on quadrupole time-of- fl ight mass spectrometry(ESI-Q-TOF MS) and database searching, Among them there are eleven proteins which are significant ly up- regulated in siRNA- treated cell line, which include heat shock protein 10(influencing nucl eocytoplas rnic transpo 다, cell dedifferentiation , and inhibition of apoptosis) , keratin 19(basal cell differ ent iat ion) ‘ and nucleoside diphosphate kinase B(G protein activator), etc Enolase 1 and Ml of pyruvate kinase a re the representatives of signifi cantly down-regulated proteins in siRNA-treated cell 11l1e Conclusion : Our data suggest that HuR participate in mRNAs stability of proteins that have the counter effects in the carcinogenesis of oral ca ncer , And the functiona l proteomics a re needed to elucidate the detailed interactions between HuR and t hese molec ules
Riptortus clavatus, one of the many insects in major crops, damages pods and seeds, which reduces seed vigor and viability in soybeans. This study was conducted to examine the effect of diversely damaged seeds by R. clavatus on seed germination and seedling emergence and to determine the association of damaged seed with quality and yield of soybean sprouts. All seeds damaged by R. clavatus significantly (P<0.05) reduced seed vigor as measured by the rates of seed germination, germination speed, and seedling emergence. Mean seed germination rate of non-damaged seeds in sprout-soybean varieties was 97.8%, whereas the rates of seeds damaged at different levels, 31-50% and 51-80%, were 23.0 and 5.4%, respectively. The rates of seedling rot and abnormal, incomplete germination significantly (P<0.05) increased as the amount of seeds damaged by R. clavatus increased to 5, 10 and 15% against the total seeds for sprout production. Yield of soybean sprouts from seeds damaged at different levels decreased up to 13% as compared to that in normal seeds. In customer preferences on soybean sprout produce, 84% of customers participated in survey preferred to purchase sprouts from seeds with 5% of damaged seeds, but sprouts produced from seeds with 15% of damaged seeds were intended to purchase only by 22% of the customers. Areas of the seed damaged by R. clavatus were readily infected by pathogens as the seed germinated, resulted in deteriorated quality and reduced yield of sprout produce.