Different Patterns of Agonist-Stimulated Increases of 3H-Inositol Phosphate Isomers and Cytosolic Ca2+ in Bovine Adrenal Chromaffin Cells: Comparison of the Effects of Histamine and Angiotensin II

Abstract: Bovine adrenal chromaffin cells (BCC) were used to compare histamine- and angiotensin II-induced changes of inositol mono-, bis-, and trisphosphate (InsP₁, InsP₂, and InsP₃, respectively) isomers, intracellular free Ca²⁺ ([Ca²⁺]_i), and the pathways of inositol phosphate metabolism. Both agonists elevated [Ca²⁺]_i by 200 nM 3–4 s after addition, but afterwards the histamine response was much more prolonged. Histamine and angiotensin II also produced similar four- to fivefold increases of Ins(1,4,5)P₃ that peaked within 5 s. Over the first minute of stimulation, however, Ins(1,4,5)P₃ formation was monophasic after angiotensin II, but biphasic after histamine, evidence supporting differential regulation of angiotensin II- and histamine-stimulated signal transduction. The metabolism of Ins(1,4,5)P₃ by BCC homogenates was found to proceed via (a) sequential dephosphorylation to Ins(1,4)P₂ and Ins(4)P, and (b) phosphorylation to inositol 1,3,4,5-tetrakisphosphate, followed by dephosphorylation to Ins(1,3,4)P₃, Ins(1,3)P₂, and Ins(3,4)P₂, and finally to Ins(1 or 3)P. In whole cells, Ins(1 or 3)P only increased after histamine treatment. Additionally, Ins(1,3)P₂ was the only other InsP₂ besides Ins(1,4)P₂ to accumulate within 1 min of agonist treatment [Ins(3,4)P₂ did not increase]. These results support a correlation between the time course of Ins(1,4,5)P₃ formation and the time course of [Ca²⁺]_i transients and illustrate that Ca²⁺-mobilizing agonists can produce distinguishable patterns of inositol phosphate formation and [Ca²⁺], changes in BCC. Different patterns of second-messenger formation are likely to be important in signal recognition and may encode agonist-specific information.     

Role of Asp297 of the AT2 receptor in high-affinity binding to different peptide ligands

To determine how ligand-receptor interaction is affected by the charges of the amino acids at position 2 of the ligands and position 297 of the AT2 receptor, we generated the Asp297Lys mutant of AT2 and a ligand SarAsp²Ile. Asp297Lys mutant lost affinity to Ang II and SarIle however retained partial affinity to ¹²⁵I-CGP42112A. The SarAsp²Ile had high affinity to Asp297Lys (IC₅₀3.5nM) and partial affinity to the AT2 (IC₅₀15nM). Therefore, not only the charge, but also the length of the side arms of the amino acids at position 2 of the ligand and position 297 of the receptor affect their interaction.     

基于线粒体COⅡ和Cytb基因序列的8种漠甲系统发育关系

对8种漠甲昆虫线粒体Cytb基因579bp和COⅡ基因585bp的序列片段进行联合分析。结果表明,8种甲虫在长度为1164bp的序列中碱基T,C,A,G的平均含量分别为33.7%,21.2%,33.5和11.6%,A+T平均含量明显高于G+C含量。密码子第三位点A+T含量高达77.2%,而该位点G的平均含量仅为4.0%。序列中碱基替换多发生于第三位点,转换略多于颠换,转换主要以C←T为主,颠换以A←T为主。以土甲族的Eumylada potanini为外群构建的系统发育树表明:漠王和漠甲以很高的置信值聚为一支,二者的关系与Bouchard最新的分类观点相吻合,即漠王族并入漠甲族成为一族;鳖甲族在支序图上另成一支,可视为一个单系群。     

Characterization of Dahl salt-sensitive rats with genetic disruption of the A2B adenosine receptor gene: implications for A2B adenosine receptor signaling during hypertension

The A_2B adenosine receptor (AR) has emerged as a unique member of the AR family with contrasting roles during acute and chronic disease states. We utilized zinc-finger nuclease technology to create A_2BAR gene (Adora2b)-disrupted rats on the Dahl salt-sensitive (SS) genetic background. This strategy yielded a rat strain (SS-Adora2b mutant rats) with a 162-base pair in-frame deletion of Adora2b that included the start codon. Disruption of A_2BAR function in SS-Adora2b mutant rats was confirmed by loss of agonist (BAY 60-6583 or NECA)-induced cAMP accumulation and loss of interleukin-6 release from isolated fibroblasts. In addition, BAY 60-6583 produced a dose-dependent increase in glucose mobilization that was absent in SS-Adora2b mutants. Upon initial characterization, SS-Adora2b mutant rats were found to exhibit increased body weight, a transient delay in glucose clearance, and reduced proinflammatory cytokine production following challenge with lipopolysaccharide (LPS). In addition, blood pressure was elevated to a greater extent (∼15–20 mmHg) in SS-Adora2b mutants as they aged from 7 to 21 weeks. In contrast, hypertension augmented by Ang II infusion was attenuated in SS-Adora2b mutant rats. Despite differences in blood pressure, indices of renal and cardiac injury were similar in SS-Adora2b mutants during Ang II-augmented hypertension. We have successfully created and validated a new animal model that will be valuable for investigating the biology of the A_2BAR. Our data indicate varying roles for A_2BAR signaling in regulating blood pressure in SS rats, playing both anti- and prohypertensive roles depending on the pathogenic mechanisms that contribute to blood pressure elevation.     

GnRH-PEⅡ-luffinS重组嵌合毒素的制备与细胞毒性检测

目的：制备以Ⅰ型促性腺激素释放激素（GnRH Ⅰ）为导向部分，以绿脓杆菌外毒素的结构域Ⅱ（PEⅡ）为转膜区，以丝瓜毒素luffinS2为毒性部分的重组嵌合毒素GnRH-PEⅡ-luffinS，体外实验检测其对肿瘤细胞的杀伤作用。方法：重叠PCR法扩增GnRH-PEⅡ-luffinS的基因，克隆至表达载体pET32a中，转化大肠杆菌BL21(DE3)，挑取阳性克隆诱导表达，产物用Ni-NTA亲和层析柱纯化。纯化蛋白经重组肠激酶（rEK）切割去除Trx融合蛋白，XTT法检测重组毒素对HeLa、A549、HepG-2、SP2/0和鸡胚成纤维细胞（CEF）的体外细胞毒作用。结果：成功构建了GnRH-PEⅡ-luffinS的表达质粒，并在大肠杆菌中获得表达，纯化后的纯度为94％。GnRH-PEⅡ-luffinS对HeLa、A549、HepG-2和SP2/0的IC50分别为13.50μg/ml、13.74μg/ml、16.79μg/ml和26.07μg/ml，而对CEF无作用。结论：重组嵌合毒素GnRH-PEⅡ-luffinS对肿瘤细胞有较强的杀伤作用。     

Emergence,evolution, and vaccine production approaches of SARS-CoV-2 virus: Benefits of getting vaccinated and common questions

The emergence of coronavirus disease 2019 (COVID-19) pandemic in Wuhan city, China at the end of 2019 made it urgent to identify the origin of the causal pathogen and its molecular evolution, to appropriately design an effective vaccine. This study analyzes the evolutionary background of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2 or SARS-2) in accordance with its close relative SARS-CoV (SARS-1), which was emerged in 2002. A comparative genomic and proteomic study was conducted on SARS-2, SARS-1, and Middle East respiratory syndrome coronavirus (MERS), which was emerged in 2012. In silico analysis inferred the genetic variability among the tested viruses. The SARS-1 genome harbored 11 genes encoding 12 proteins, while SARS-2 genome contained only 10 genes encoding for 10 proteins. MERS genome contained 11 genes encoding 11 proteins. The analysis also revealed a slight variation in the whole genome size of SARS-2 comparing to its siblings resulting from sequential insertions and deletions (indels) throughout the viral genome particularly ORF1AB, spike, ORF10 and ORF8. The effective indels were observed in the gene encoding the spike protein that is responsible for viral attachment to the angiotensin-converting enzyme 2 (ACE2) cell receptor and initiating infection. These indels are responsible for the newly emerging COVID-19 variants αCoV, βCoV, γCoV and δCoV. Nowadays, few effective COVID-19 vaccines developed based on spike (S) glycoprotein were approved and become available worldwide. Currently available vaccines can relatively prevent the spread of COVID-19 and suppress the disease. The traditional (killed or attenuated virus vaccine and antibody-based vaccine) and innovated vaccine production technologies (RNA- and DNA-based vaccines and viral vectors) are summarized in this review. We finally highlight the most common questions related to COVID-19 disease and the benefits of getting vaccinated.     

Angiotensin III and IV activation of the brain AT1 receptor subtype in cardiovascular function

The present investigation determined that native angiotensins II and III (ANG II and III) were equipotent as pressor agents when ICV infused in alert rats, whereas native angiotensin IV (ANG IV) was less potent. An analogue of each of these angiotensins was prepared with a hydroxyethylamine (HEA) amide bond replacement at the N-terminus, yielding additional resistance to degradation. These three angiotensin analogues, HEA-ANG II, HEA-ANG III, and HEA-ANG IV, were equivalent with respect to maximum elevation in pressor responses when ICV infused; and each evidenced significantly extended durations of effect compared with their respective native angiotensin. Comparing analogues, HEA-ANG II had a significantly longer effect compared with HEA-ANG III, and HEA-ANG IV, whereas the latter were equivalent. Pretreatment with the AT₁ receptor subtype antagonist, Losartan (DuP753), blocked subsequent pressor responses to each of these analogues, suggesting that these responses were mediated by the AT₁ receptor subtype. Pretreatment with the specific AT₄ receptor subtype antagonist, Divalinal (HED 1291), failed to influence pressor responses induced by the subsequent infusion of these analogues. These results suggest an important role for Ang III, and perhaps ANG IV, in brain angiotensin pressor responses mediated by the AT₁ receptor subtype.     

Oxidative inhibition of the vascular Na+-K+ pump via NADPH oxidase-dependent β1-subunit glutathionylation: Implications for angiotensin II-induced vascular dysfunction

Glutathionylation of the Na⁺-K⁺ pump’s β₁-subunit is a key molecular mechanism of physiological and pathophysiological pump inhibition in cardiac myocytes. Its contribution to Na⁺-K⁺ pump regulation in other tissues is unknown, and cannot be assumed given the dependence on specific β-subunit isoform expression and receptor-coupled pathways. As Na⁺-K⁺ pump activity is an important determinant of vascular tone through effects on [Ca²⁺]_i, we have examined the role of oxidative regulation of the Na⁺-K⁺ pump in mediating angiotensin II (Ang II)-induced increases in vascular reactivity. β₁-subunit glutathione adducts were present at baseline and increased by exposure to Ang II in rabbit aortic rings, primary rabbit aortic vascular smooth muscle cells (VSMCs), and human arterial segments. In VSMCs, Ang II-induced glutathionylation was associated with marked reduction in Na⁺-K⁺ATPase activity, an effect that was abolished by the NADPH oxidase inhibitory peptide, tat-gp91ds. In aortic segments, Ang II-induced glutathionylation was associated with decreased K⁺-induced vasorelaxation, a validated index of pump activity. Ang II-induced oxidative inhibition of Na⁺-K⁺ ATPase and decrease in K⁺-induced relaxation were reversed by preincubation of VSMCs and rings with recombinant FXYD3 protein that is known to facilitate deglutathionylation of β₁-subunit. Knock-out of FXYD1 dramatically decreased K⁺-induced relaxation in a mouse model. Attenuation of Ang II signaling in vivo by captopril (8 mg/kg/day for 7 days) decreased superoxide-sensitive DHE levels in the media of rabbit aorta, decreased β₁-subunit glutathionylation, and enhanced K⁺-induced vasorelaxation. Ang II inhibits the Na⁺-K⁺ pump in VSMCs via NADPH oxidase-dependent glutathionylation of the pump’s β₁-subunit, and this newly identified signaling pathway may contribute to altered vascular tone. FXYD proteins reduce oxidative inhibition of the Na⁺-K⁺ pump and may have an important protective role in the vasculature under conditions of oxidative stress.     

理论预测果蝇polⅡ启动子

基于果蝇polⅡ启动予的序列特征，利用结合了离散增量和位置权重矩阵的贝叶斯判别函数对果蝇启动予进行了预测。对预测算法进行10交叉检验。通过比较不同大小训练集对结果的影响，说明了参数选取的合理性和算法的预测能力。同时比较了不同参数的选取对预测结果的影响，从而获得最佳启动子预测结果。预测结果显示成功率达到93％，相互关联系数达到83％。