长春市儿童医院1998～2001年婴幼儿杯状病毒腹泻流行病学研究

人类杯状病毒(human calicivirus,HuCV)是引起儿童和成人非菌性胃肠炎的主要病原之一.为了掌握HuCV在我国的流行情况,1998年7月至2001年6月,从长春市儿童医院2343例5岁以下腹泻患儿中共收集粪便标本1264份,其中1056份来自2135例住院患儿.对轮状病毒检测为阴性的588份标本,经多价酶免疫试验(EIA)和两组引物反转录-聚合酶链反应(RT-PCR)检测HuCV,202份为阳性,其中住院患儿标本178份,HuCV检出率为16.9%.HuCV腹泻以2岁以下儿童为主(占96%),流行高峰季节为11月至次年3月.选择17株HuCV进行分子鉴定,15株属GⅡ-4群,1株属GⅡ-3群,另1株属GⅠ-2群,表明GⅡ-4群HuCV是我国流行的优势株.根据HuCV住院患儿的监测资料初步估计,HuCV腹泻住院率约为0.5‰～2.4‰.讨论了长春地区HuCV的流行趋势和疾病负担.以上结果为我国HuCV腹泻的预防和控制提供了科学依据.     

Characterization and localization of 3H-arginine8-vasopressin binding to rat kidney and brain tissue

Anatomic, behavioral and pharmacologic evidence suggests that arginine8-vasopressin (AVP) serves as a CNS neurotransmitter or neuromodulator. We have characterized AVP binding to membrane and tissue slice preparations from brain and kidney, and examined the anatomical distribution of these binding sites. Conditions for the binding assay were optimized using kidney medullary tissue. Binding of 3H-AVP (S.A. = 30-51 Ci/mmol, NEN) to brain and kidney membranes and tissue slices was saturable, temperature dependent, linearly related to protein concentration (or number of tissue slices), reversible, and specific since the ability of cold AVP to displace 3H-AVP from binding was greater than oxytocin and other related peptide fragments. Autoradiographic localization of 3H-AVP binding was restricted to kidney medullary tissue. In brain tissue, 3H-AVP binding was found to occur in concentrated foci. Brainstem areas such as the nucleus tractus solitarius (NTS) showed a high density of AVP binding sites. Since local injections of AVP into the NTS have been shown to influence blood pressure, the present study presents the first anatomical evidence for the presence of AVP specific binding sites which might mediate this effect.     

Trace elements in Alzheimer's disease pituitary glands

Levels of mercury (Hg), selenium (Se), iron (Fe), rubidium (Rb), and zinc (Zn) were measured in the pituitary gland to assess the possibility of a potential difference in the environmental Hg exposure of Alzheimer's disease (AD) patients and control subjects and levels of other elements of interest in AD. The pituitary gland has been established as a good predictor of environmental Hg exposure. Neutron activation analysis was utilized to determine levels of these elements in pituitary glands of 43 AD subjects and 15 control subjects. No significant differences were observed between the AD and control means for these five elements. The sole significant Pearson's correlation involving Hg was the established correlation with Se, indicative of the detoxification of Hg. The absence of a statistical difference between AD and control pituitary gland Hg levels suggests AD patients do not have an excessive environmental exposure to Hg compared to controls.     

Effects of the β‐agonist,isoprenaline, on the down‐regulation,functional responsiveness and trafficking of β2‐adrenergic receptors with N‐terminal polymorphisms

The β₂‐AR (β₂‐adrenergic receptor) is an important target for respiratory and CVD (cardiovascular disease) medications. Clinical studies suggest that N‐terminal polymorphisms of β₂‐AR may act as disease modifiers. We hypothesized that polymorphisms at amino acids 16 and 27 result in differential trafficking and down‐regulation of β₂‐AR variants following β‐agonist exposure. The functional consequences of the four possible combinations of these polymorphisms in the human β₂‐AR (designated β₂‐AR‐RE, β₂‐AR‐GE, β₂‐AR‐RQ and β₂‐AR‐GQ) were studied using site‐directed mutagenesis and recombinant expression in HEK‐293 cells (human embryonic kidney cells). Ligand‐binding assays demonstrated that after 24 h exposure to 1 μM isoprenaline, isoforms with Arg¹⁶ (β₂‐AR‐RE and β₂‐AR‐RQ) underwent increased down‐regulation compared with isoforms with Gly¹⁶ (β₂‐AR‐GE and β₂‐AR‐GQ). Consistent with these differences in down‐regulation between isoforms, prolonged isoprenaline treatment resulted in diminished cAMP response to subsequent isoprenaline challenge in β₂‐AR‐RE relative to β₂‐AR‐GE. Confocal microscopy revealed that the receptor isoforms had similar co‐localization with the early endosomal marker EEA1 following isoprenaline treatment, suggesting that they had similar patterns of internalization. None of the isoforms exhibited significant co‐localization with the recycling endosome marker Rab11 in response to isoprenaline treatment. Furthermore, we found that prolonged isoprenaline treatment led to a higher degree of co‐localization of β₂‐AR‐RE with the lysosomal marker LAMP1 (lysosome‐associated membrane protein 1) compared with that of β₂‐AR‐GE. Taken together, these results indicate that a mechanism responsible for differential responses of these receptor isoforms to the β‐agonist involves differences in the efficiency with which agonist‐activated receptors are trafficked to the lysosomes for degradation, or differences in degradation in the lysosomes.     

Biocatalytic potential of laccase-like multicopper oxidases from Aspergillus niger

Background

The integration of biotechnology into chemical manufacturing has been recognized as a key technology to build a sustainable society. However, the practical applications of biocatalytic chemical conversions are often restricted due to their complexities involving the unpredictability of product yield and the troublesome controls in fermentation processes. One of the possible strategies to overcome these limitations is to eliminate the use of living microorganisms and to use only enzymes involved in the metabolic pathway. Use of recombinant mesophiles producing thermophilic enzymes at high temperature results in denaturation of indigenous proteins and elimination of undesired side reactions; consequently, highly selective and stable biocatalytic modules can be readily prepared. By rationally combining those modules together, artificial synthetic pathways specialized for chemical manufacturing could be designed and constructed.

Results

A chimeric Embden-Meyerhof (EM) pathway with balanced consumption and regeneration of ATP and ADP was constructed by using nine recombinant E. coli strains overproducing either one of the seven glycolytic enzymes of Thermus thermophilus, the cofactor-independent phosphoglycerate mutase of Pyrococcus horikoshii, or the non-phosphorylating glyceraldehyde-3-phosphate dehydrogenase of Thermococcus kodakarensis. By coupling this pathway with the Thermus malate/lactate dehydrogenase, a stoichiometric amount of lactate was produced from glucose with an overall ATP turnover number of 31.

Conclusions

In this study, a novel and simple technology for flexible design of a bespoke metabolic pathway was developed. The concept has been testified via a non-ATP-forming chimeric EM pathway. We designated this technology as “synthetic metabolic engineering”. Our technology is, in principle, applicable to all thermophilic enzymes as long as they can be functionally expressed in the host, and thus would be potentially applicable to the biocatalytic manufacture of any chemicals or materials on demand.

     

Characterization of a panel of six β2-adrenergic receptor antibodies by indirect immunofluorescence microscopy

Background

The β₂-adrenergic receptor (β₂AR) is a primary target for medications used to treat asthma. Due to the low abundance of β₂AR, very few studies have reported its localization in tissues. However, the intracellular location of β₂AR in lung tissue, especially in airway smooth muscle cells, is very likely to have a significant impact on how the airways respond to β-agonist medications. Thus, a method for visualizing β₂AR in tissues would be of utility. The purpose of this study was to develop an immunofluorescent labeling technique for localizing native and recombinant β₂AR in primary cell cultures.

Methods

A panel of six different antibodies were evaluated in indirect immunofluorescence assays for their ability to recognize human and rat β₂AR expressed in HEK 293 cells. Antibodies capable of recognizing rat β₂AR were identified and used to localize native β₂AR in primary cultures of rat airway smooth muscle and epithelial cells. β₂AR expression was confirmed by performing ligand binding assays using the β-adrenergic antagonist [3H] dihydroalprenolol ^([3H]DHA).

Results

Among the six antibodies tested, we identified three of interest. An antibody developed against the C-terminal 15 amino acids of the human β₂AR (Ab-Bethyl) specifically recognized human but not rat β₂AR. An antibody developed against the C-terminal domain of the mouse β₂AR (Ab-sc570) specifically recognized rat but not human β₂AR. An antibody developed against 78 amino acids of the C-terminus of the human β₂AR (Ab-13989) was capable of recognizing both rat and human β₂ARs. In HEK 293 cells, the receptors were predominantly localized to the cell surface. By contrast, about half of the native rat β₂AR that we visualized in primary cultures of rat airway epithelial and smooth muscle cells using Ab-sc570 and Ab-13989 was found inside cells rather than on their surface.

Conclusion

Antibodies have been identified that recognize human β₂AR, rat β₂AR or both rat and human β₂AR. Interestingly, the pattern of expression in transfected cells expressing millions of receptors was dramatically different from that in primary cell cultures expressing only a few thousand native receptors. We anticipate that these antibodies will provide a valuable tool for evaluating the expression and trafficking of β₂AR in tissues.     

Molecular docking analysis of bioactive compounds from Cissampelos pareira with PPAR gamma

We document the Molecular docking analysis of bioactive compounds from Cissampelos pareira with PPAR gamma for further consideration in drug discovery for T2DM.     

Molecular modeling of cornulin (CRNN) for docking with phytocompounds from Justicia adhatoda L.

Cornulin (CRNN) is linked with tumour progression. Therefore, it is of interest to document data on the molecular modeling of cornulin (CRNN) for docking with phytocompounds (Pyrazinamide, Anisotine, Vasicinone, Vasicoline) from Justicia adhatoda L. Thus, we document the optimal binding features of these compounds with the cornulin model for further consideration.     

Biomarker discovery by imaging mass spectrometry: transthyretin is a biomarker for gentamicin-induced nephrotoxicity in rat

Adverse drug effects are often associated with pathological changes in tissue. An accurate depiction of the undesired affected area, possibly supported by mechanistic data, is important to classify the effects with regard to relevance for human patients. MALDI imaging MS represents a new analytical tool to directly provide the spatial distribution and the relative abundance of proteins in tissue. Here we evaluate this technique to investigate potential toxicity biomarkers in kidneys of rats that were administered gentamicin, a well known nephrotoxicant. Differential analysis of the mass spectrum profiles revealed a spectral feature at 12,959 Da that strongly correlates with histopathology alterations of the kidney. We unambiguously identified this spectral feature as transthyretin (Ser(28)-Gln(146)) using an innovative combination of tissue microextraction and fractionation by reverse-phase liquid chromatography followed by a top-down tandem mass spectrometric approach. Our findings clearly demonstrate the emerging role of imaging MS in the discovery of toxicity biomarkers and in obtaining mechanistic insights concerning toxicity mechanisms.