吗啡对培养海马神经元钙离子作用的机制研究

目的：研究吗啡对海马神经元[Ca^2 ]i影响的机制,为探索吗啡成瘾的神经生物学机制与可能的治疗途径。方法：荧光探针Fluo-4标记细胞内游离钙后,用激光共聚焦显微镜检测吗啡对大鼠原代培养海马神经元[Ca^2 ]i的影响。结果：吗啡急性刺激引起海马神经元[Ca^2 ]i升高,CTOP不能阻断吗啡引起的细胞内[Ca^2 ]i增加,而naltrindole能阻断吗啡引起的细胞内[Ca^2 ]i反应;Thapsigargin预处理阻断吗啡诱导的细胞内[Ca^2 ]i增加,Verapamil预处理不能完全抑制吗啡引起的细胞内[Ca^2 ]i增加;吗啡长时程作用后,海马神经元[Ca^2 ]i升高,加入纳络酮急性戒断后,不能阻断吗啡引起的细胞内[Ca^2 ]i升高,反而引起[Ca^2 ]i异常升高。结论：吗啡急性刺激引起的海马神经元内游离钙增加主要来源于δ2阿片受体介导的IP3敏感的钙库释放。     

大鼠卵巢不同功能阶段时c-fos表达的动态变化

目的和方法：本文用免疫组织化学方法检测了成年大鼠卵巢于不同的功能阶段和未成年大鼠外源性激素诱导的卵巢于不同的功能阶段c-fos表达的变化以及与血清E2和P含量的相关关系。结果：在成年大鼠动情前期、动情期卵巢的间质腺和基质中及动情间期和妊娠期卵巢的黄体细胞和基质中有c-fos表达,c-fos蛋白阳性信号的表达范围和表达强度在动情前期卵巢较大,动情间期和动情期卵巢较低,妊娠期卵巢最大,这种变化与血清E2和P含量的变化呈明显的正相关关系。未成年大鼠,用DES使卵泡发育至窦前期时,在卵巢中未检测到有c-fos蛋白的表达,用PMSG使贸泡发育至排卵前期时在卵巢的间质腺和基质中有c-fos表达,用PMSG和hCG后4天形成的早期黄体化卵巢c-fos在黄体细胞和基质中的表达明显升高,而于用hCG后9天形成的晚期黄体化卵巢c-fos表达明显下降,这种变化也与血清E2和P含量的变化呈明显的正相关关系。结论：c-fos与卵泡发育、排卵、黄体形成和退化等功能密切相关。     

Regulation of airway tight junctions by proinflammatory cytokines

Epithelial tight junctions (TJs) provide an important route for passive electrolyte transport across airway epithelium and provide a barrier to the migration of toxic materials from the lumen to the interstitium. The possibility that TJ function may be perturbed by airway inflammation originated from studies reporting (1) increased levels of the proinflammatory cytokines interleukin-8 (IL-8), tumor necrosis factor alpha (TNF-alpha), interferon gamma (IFN-gamma), and IL-1beta in airway epithelia and secretions from cystic fibrosis (CF) patients and (2) abnormal TJ strands of CF airways as revealed by freeze-fracture electron microscopy. We measured the effects of cytokine exposure of CF and non-CF well-differentiated primary human airway epithelial cells on TJ properties, including transepithelial resistance, paracellular permeability to hydrophilic solutes, and the TJ proteins occludin, claudin-1, claudin-4, junctional adhesion molecule, and ZO-1. We found that whereas IL-1beta treatment led to alterations in TJ ion selectivity, combined treatment of TNF-alpha and IFN-gamma induced profound effects on TJ barrier function, which could be blocked by inhibitors of protein kinase C. CF bronchi in vivo exhibited the same pattern of expression of TJ-associated proteins as cultures exposed in vitro to prolonged exposure to TNF-alpha and IFN-gamma. These data indicate that the TJ of airway epithelia exposed to chronic inflammation may exhibit parallel changes in the barrier function to both solutes and ions.     

Effects of different peptide fragments derived from proadrenomedullin on gene expression of adrenomedullin gene

Primary culture of vascular smooth muscle cells (VSMC) from rat aorta was used for the study of the effect of different peptides derived from proadrenomedullin on the expression of adrenomedullin (ADM) gene. ADM and preproADM(22-41) (PAMP) secreted by VSMC were measured by radioimmunoassay, and ADM mRNA in VSMC was determined by quantitative RT-PCR. After the incubation of VSMC in 10(-7)M ADM for 24h, PAMP in the medium and ADM mRNA in the VSMC were decreased by 34 and 41.3%, respectively, and cAMP concentration in the VSMC was increased by 385%. After the incubation of VSMC in 10(-7)M PAMP for 24h, ADM in the medium and ADM mRNA in the VSMC were decreased by 12.2 and 39.1%, respectively, and cAMP concentration in the VSMC was increased by 67%. The decreased ADM mRNA in VSMC induced by the ADM and PAMP treatment was completely reversed by the pre-treatment of the cells in 10(-7)M protein kinase inhibitor for 30 min. After the incubation of VSMC in 10(-7)M preproADM(153-185) (ADT) for 24h, however, ADM in the medium and ADM mRNA in the VSMC were increased by 21 and 35.2%. The increased ADM mRNA in VSMC induced by the ADT treatment was partially blocked by the co-incubation in ADM and ADT, and was totally blocked by the co-incubation in PAMP+ADM and ADT, but was not blocked by the co-incubation in PAMP and ADT. Our results suggest that the four peptides derived from proadrenomedullin may have different effects, possibly through a cAMP-dependent pathway, on the expression of ADM gene.     

Rat ghrelin stimulates growth hormone and prolactin release in the tilapia,Oreochromis mossambicus

Recently, ghrelin (Ghr), a new peptide which specifically stimulates growth hormone (GH) release from the pituitary, was identified in the rat and human stomach. Ghrelin has been shown to stimulate GH release by acting through a growth hormone secretagogue (GHS) receptor in the rat. The present study describes the in vitro effect of rat Ghr on the release of GH and two forms of prolactin (PRL(177) and PRL(188)) in the tilapia, Oreochromis mossambicus. Rat Ghr stimulated the release of GH in a dose-related manner after 8 and 24 hr of incubation. Rat Ghr also significantly stimulated the release of PRL(177) and PRL(188) in a dose-related manner after 24 hr. Rat Ghr had no effect on the pituitary content of GH or PRL(188), but significantly increased PRL(177) content. These results show for the first time that rat Ghr significantly stimulates GH and PRL release in teleosts, and suggest that Ghr and a GHS receptor are present in fish.     

Interactions involving the Rad51 paralogs Rad51C and XRCC3 in human cells

Homologous recombinational repair of DNA double-strand breaks and crosslinks in human cells is likely to require Rad51 and the five Rad51 paralogs (XRCC2, XRCC3, Rad51B/Rad51L1, Rad51C/Rad51L2 and Rad51D/Rad51L3), as has been shown in chicken and rodent cells. Previously, we reported on the interactions among these proteins using baculovirus and two- and three-hybrid yeast systems. To test for interactions involving XRCC3 and Rad51C, stable human cell lines have been isolated that express (His)₆-tagged versions of XRCC3 or Rad51C. Ni²⁺-binding experiments demonstrate that XRCC3 and Rad51C interact in human cells. In addition, we find that Rad51C, but not XRCC3, interacts directly or indirectly with Rad51B, Rad51D and XRCC2. These results argue that there are at least two complexes of Rad51 paralogs in human cells (Rad51C–XRCC3 and Rad51B–Rad51C–Rad51D–XRCC2), both containing Rad51C. Moreover, Rad51 is not found in these complexes. X-ray treatment did not alter either the level of any Rad51 paralog or the observed interactions between paralogs. However, the endogenous level of Rad51C is moderately elevated in the XRCC3-overexpressing cell line, suggesting that dimerization between these proteins might help stabilize Rad51C.     

Molecular characterization of a ring X chromosome in a male with short stature

We report the molecular characterization of a ring X chromosome that was transmitted from a mother to a male who has short stature and minor dysmorphic features. This represents only the second reported ring X chromosome in a male. The ring is derived from breakage within the Xp pseudoautosomal region (PAR) and just proximal to the Xq PAR. The total amount of deleted material is 700-900 kb DNA and includes six known transcribed genes. Interestingly, SHOX, a gene implicated in short stature, is not deleted from the ring chromosome. Possible pathogenetic explanations for the patient's clinical features include insufficient dosage of deleted genes, a position effect on SHOX expression, and cell death during development because of ring chromosome nondisjunction. The findings are also relevant to observations made of "complete" ring chromosomes.     

Molecular aptamer beacons for real-time protein recognition

One of the most pressing problems facing those attempting to understand the regulation of gene expression and translation is the necessity to monitor protein production in a variety of metabolic states. Thus far, there is no easy solution that will either identify or quantitate proteins in real time. Here we introduce a novel protein probe, molecular aptamer beacon (MAB), for real time protein recognition and quantitative analysis. The MAB combines the signal transduction mechanism of molecular beacons and the molecular recognition specificity of aptamers. An MAB based on a thrombin-binding aptamer was prepared as a model to demonstrate the feasibility. Significant fluorescent signal change was observed when MAB was bound to thrombin, which is attributed to a significant conformational change in MAB from a loose random coil to a compact unimolecular quadruplex. The MAB recognizes its target protein with high specificity and high sensitivity (112 picomolar thrombin concentration) in homogeneous solutions. Ratiometric imaging has been conducted with MAB labeled with two fluorophores, which makes it feasible for protein quantitation in living specimen. The unique properties of the MAB will enable the development of a class of protein probes for real time protein tracing in living specimen and for efficient biomedical diagnosis in homogeneous solutions.