肾性高血压大鼠左室等容峰压一容积关系及其对异丙肾上腺素的反应

本研究观察了肾血管性高血压大鼠(RHR)肥大左室的等容峰压-容积关系(PIPVR)和左室压力最大上升速率-容积关系(PRPVR)的曲线特征,并用两曲线的升支斜率E_(max)和dE/dt_(max)及曲线的特征参数评价了RHR(8周)左室的收缩能力及其对异丙肾上腺素的反应性。结果显示,大鼠高血压8周后左室发生明显肥大;与同龄假手术对照大鼠(SOR)相似,RHR的PIPVR和PRPVR也呈指数曲线形式;与SOR比较,RHR左室的PIPVR和PRPVR左上移位,E_(max)、dE/dt_(max)显著增大(P均<0.01),分别增加78％和97％,曲线的特征参数K_1、K_2、B_1和B_2也明显高于SOR(P均<0.05),分别增加37％、32％、25％和57％;灌注异丙肾上腺素(0.94μg/min)后,上述指标的增加幅度均较SOR低(P均<0.05)。结果提示,压力超负荷心肌肥大并不影响PIPVR的非线性特征,基础状态下,RHR肥大左室的收缩能力增强,但对异丙肾上腺素的反应性降低。     

微小根毛霉感染机理研究

本文在首次报告二例肺结核、糖尿病患者合并感染肺微小根毛霉的基础上,进一步探讨免疫功能受损与微小根毛霉感染关系。本文采用不同剂量~(60)Co-γ全身辐照小鼠,然后以不同途径注射同剂量的微小根毛霉的孢囊孢子,观察动物的感染情况和感染后的真菌检出率,结果发现各种辐射剂量均在辐射后7-14日感染菌的检出率最高;各种脏器感染菌的检出率以脾脏最高(66.7—81.8％);淋巴结最低(0.0—25.0％);其他脏器的感染菌检出率也有不同程度的差异。     

大鼠皂素蜕膜心肌肌钙蛋白Ca^2＋敏感性的实验研究

采用５００μｇ／ｍｌ皂素溶液浸浴大鼠右室乳头肌３０ｍｉｎ制备蜕膜心肌纤维标本。经撤除ＭｇＡＴＰ法检验,肌膜通透性明显增高。用含不同浓度Ｃａ￣(２＋)（以Ｃａ￣(２＋)浓度负对数ｐＣａ表示）的激活液进行顺序激活,记录Ｃａ￣(２＋)激活张力,其张力－ｐＣａ关系曲线描述了肌钙蛋白（ＴＮ）对Ｃａ￣(２＋)的亲和特性;曲线中位值ｐＣａ＿(５０)（即产生５０％最大张力所对应的ｐＣａ）是反映ＴＮＣａ￣(２＋)敏感性的定量指标。本实验观察到大鼠右室乳头肌张力－ｐＣａ关系曲线呈Ｓ形,测得ｐＣａ＿(５０)为５．７２７±０．０８６（ｎ＝１６）;撤除激活液中磷酸肌酸和磷酸肌酸激酶,张力－ｐＣａ曲线左移位,ｐＣａ＿(５０)增高至６．１９４±０．１２１（Ｐ＜０．０１）。     

Metabolic engineering of Clostridium tyrobutyricum for enhanced butyric acid production with high butyrate/acetate ratio

Applied Microbiology and Biotechnology - Butyric acid fermentation by Clostridium couples with the synthesis of acetic acid. But the presence of acetic acid reduces butyric acid yield and increases...     

MicroRNA profiles in Sorghum exposed to individual drought or heat or their combination

Sorghum is largely grown for food, fodder and for biofuel production in semi-arid regions where the drought or high temperature or their combination co-occur. Plant microRNAs (miRNAs) are integral to the gene regulatory networks that control almost all biological processes including adaptation to stress conditions. Thus far, plant miRNA profiles under separate drought or heat stresses have been reported but not under combined drought and heat. In this study, we report miRNA profiles in leaves of sorghum exposed to individual drought or heat or their combination. Approximately 29 conserved miRNA families represented by 80 individual miRNAs, 26 families represented by 47 members of less conserved or sorghum-specific miRNA families as well as 8 novel miRNA families have been identified. Of these, 25 miRNAs were found to be differentially regulated in response to stress treatments. The comparative profiling revealed that the miRNA regulation was stronger under heat or combination of heat and drought compared to the drought alone. Furthermore, using degradome sequencing, 48 genes were confirmed as targets for the miRNAs in sorghum. Overall, this study provides a framework for understanding of the miRNA-guided gene regulations under combined stresses.

     

Ptk2b deletion improves mice folliculogenesis and fecundity via inhibiting follicle loss mediated by Erk pathway

Ptk2b has been found playing critical roles in oocyte maturation and subsequent fertilization in vitro. But what is the exact in vivo function in reproduction still elusive. Here, by constructing Ptk2b mutant mice, we found Ptk2b was not essential for mice fertility, unexpectedly, contrary to previously reported in vitro findings, we found Ptk2b ablation significantly improved female fecundity. Follicle counting indicated that the number of primordial follicles and growing follicles in matured mice was significantly increased in the absence of Ptk2b, whereas the primordial follicle formation showed no defects. We also found this regulation was in an autophosphorylation independent pathway, as autophosphorylation site mutant mice (PTK2B^Y402F) show no phenotype in female fertility. Further biochemistry studies revealed that Ptk2b ablation promotes folliculogenesis via Erk pathway mediate follicle survival. Together, we found a novel biological function of Ptk2b in folliculogenesis, which could be potentially used as a therapeutic target for corresponding infertility.     

Exosomes from neuronal stem cells may protect the heart from ischaemia/reperfusion injury via JAK1/2 and gp130

Myocardial infarction requires urgent reperfusion to salvage viable heart tissue. However, reperfusion increases infarct size further by promoting mitochondrial damage in cardiomyocytes. Exosomes from a wide range of different cell sources have been shown to activate cardioprotective pathways in cardiomyocytes, thereby reducing infarct size. Yet, it is currently challenging to obtain highly pure exosomes in quantities enough for clinical studies. To overcome this problem, we used exosomes isolated from CTX0E03 neuronal stem cells, which are genetically stable, conditionally inducible and can be produced on an industrial scale. However, it is unknown whether exosomes from neuronal stem cells may reduce cardiac ischaemia/reperfusion injury. In this study, we demonstrate that exosomes from differentiating CTX0E03 cells can reduce infarct size in mice. In an in vitro assay, these exosomes delayed cardiomyocyte mitochondrial permeability transition pore opening, which is responsible for cardiomyocyte death after reperfusion. The mechanism of MPTP inhibition was via gp130 signalling and the downstream JAK/STAT pathway. Our results support previous findings that exosomes from non-cardiomyocyte-related cells produce exosomes capable of protecting cardiomyocytes from myocardial infarction. We anticipate our findings may encourage scientists to use exosomes obtained from reproducible clinical-grade stocks of cells for their ischaemia/reperfusion studies.     

Reduction/pH dual-sensitive PEGylated hyaluronan nanoparticles for targeted doxorubicin delivery

To minimize the side effect of chemotherapy, a novel reduction/pH dual-sensitive drug nanocarrier, based on PEGylated dithiodipropionate dihydrazide (TPH)-modified hyaluronic acid (PEG-SS-HA copolymer), was developed for targeted delivery of doxorubicin (DOX) to hepatocellular carcinoma. The copolymer was synthesized by reductive amination via Schiff's base formation between TPH-modified HA and galactosamine-conjugated poly(ethylene glycol) aldehyde/methoxy poly(ethylene glycol) aldehyde. Conjugation of DOX to PEG-SS-HA copolymer was accomplished through the hydrazone linkage formed between DOX and PEG-SS-HA, and confirmed by FTIR and ¹H NMR spectra. The polymer–DOX conjugate could self-assemble into spherical nanoparticles (∼150 nm), as indicated by TEM and DLS. In vitro release studies showed that the DOX-loaded nanoparticles could release DOX rapidly under the intracellular levels of pH and glutathiose. Cellular uptake experiments demonstrated that the nanoparticles could be efficiently internalized by HepG2 cells. These results indicate that the PEG-SS-HA copolymer holds great potential for targeted intracellular delivery of DOX.