Differential increases in brain levels of neuropeptide Y and vasoactive intestinal polypeptide after kainic acid-induced seizures in the rat

Summary Changes in immunoreactivities of neuropeptide Y (NPY) and vasoactive intestinal polypeptide (VIP) were investigated in the brain of rats after severe kainic acid (KA, 10 mg/kg, i.p.) induced limbic seizures. Decreased levels of both neuropeptides were observed in the frontal cortex, striatum, dorsal hippocampus and amygdala/pyriform cortex subsequently to the period of acute seizures (3 h after injection of the toxin). Then NPY increased consistently in the frontal cortex, hippocampus and amygdala/pyriform cortex. Highest levels (290% of controls) were found in the frontal cortex after two months. Anticonvulsant therapy with phenobarbital (20 mg/kg, i.p., twice daily for three weeks) partially suppressed the rise in NPY levels. Immunoreactivity of VIP increased (to 150%) in the frontal cortex only transiently 3 days after injection of kainic acid. At the subsequently examined time intervals (10–60 days after kainic acid) it declined to control values. Levels decreasing subsequently to acute seizures reflect increased release and degradation of the respective peptide. Increased NPY levels suggest upregulation of NPY/ somatostatin/GABA neurons due to the decreased seizure threshold of the animals. The early, reversible rise of VIP in the cortex points to a short-lasting activation of this peptide system contained in local cholinergic neurons. This may be a consequence either of the acute seizures or subsequent neuropathological changes. Send offprint requests to G. Sperk at the above address     

120例精子发生障碍的遗传缺陷研究

目的探讨无精子症,严重少精子症和少、弱精子症患者的遗传缺陷与男性不育的关系。方法采用外周血染色体核型分析技术和Y染色体基因微缺失检测方法,对120例无精子症,严重少精子症和少弱精子的患者进行了遗传咨询。结果在被筛查患者中发现异常染色体核型13例,异常核型发生率为10.83%;而其Y染色体微缺失检测中存在AZFc/SPGY基因缺失31例,缺失率25.83%。结论染色体核型异常和Y染色体微缺失与精子生成障碍有直接逻辑关系。Y染色体AZFc/SPGY区域的微缺失是中国男性不育的重要原因,因此,中国男性不育症患者有必要进行Y染色体AZFc/SPGY微缺失的常规筛查。     

日本猴椎旁交感神经节中含肽神经元的研究

本实验系应用荧光免疫组织化学的方法观察猴下位腰段椎旁交感神经节(L_(6-7))中神经肽Y,血管活性肠肽,降钙素基因相关肽,和P物质的存在、分布情况以及它们与酪氨酸羟化酶的共存关系。结果表明,大量细胞呈神经肽Y免疫反应阳性,它们在神经节周边分布更为密集。中等数量的血管活性肠肽阳性细胞和小量降钙素基因相关肽细胞散在于神经节内。在经含有Colchiciue的培养液离体孵育12h的标本上,可见中等数量的P物质免疫反应阳性细胞。根据抗酪氨酸羟化酶(TH)抗体的免疫染色结果,神经节内的神经元可分为TH~+和TH~-两群,前者占大多数。相邻切片免疫染色结果表明,几乎所有神经肽Y免疫阳性细胞同时含有TH,而所有血管活性肠肽免疫反应阳性细胞均呈酪氨酸羟化酶免疫反应阴性。神经肽Y与血管活性肠肽无共存关系。降钙素基因相关肽存在于部分血管活性肠肽免疫反应阳性细胞中,即属于VIP~+/TH~-组。从以上结果得出结论,在猴下位腰段椎旁交感神经节中,神经肽Y与血管活性肠肽分别存在于TH~+和TH~-两个细胞群。即神经肽Y存在于TH阳性神经元中,血管活性肠肽和降钙素基因相关肽则存在于TH阴性神经元中。     

Lactobacillus acidophilus Induces a Strain-specific and Toll-Like Receptor 2–Dependent Enhancement of Intestinal Epithelial Tight Junction Barrier and Protection Against Intestinal Inflammation

Defective intestinal tight junction (TJ) barrier is an important pathogenic factor of inflammatory bowel disease. To date, no effective therapies that specifically target the intestinal TJ barrier are available. The purpose of this study was to identify probiotic bacterial species or strains that induce a rapid and sustained enhancement of intestinal TJ barrier and protect against the development of intestinal inflammation by targeting the TJ barrier. After high-throughput screening of >20 Lactobacillus and other probiotic bacterial species or strains, a specific strain of Lactobacillus acidophilus, referred to as LA1, uniquely produced a marked enhancement of the intestinal TJ barrier. LA1 attached to the apical membrane surface of intestinal epithelial cells in a Toll-like receptor (TLR)-2–dependent manner and caused a rapid increase in enterocyte TLR-2 membrane expression and TLR-2/TLR-1 and TLR-2/TLR-6 hetero-complex–dependent enhancement in intestinal TJ barrier function. Oral administration of LA1 caused a rapid enhancement in mouse intestinal TJ barrier, protected against a dextran sodium sulfate (DSS) increase in intestinal permeability, and prevented the DSS-induced colitis in a TLR-2– and intestinal TJ barrier–dependent manner. In conclusion, we report for the first time that a specific strain of LA causes a strain-specific enhancement of intestinal TJ barrier through a novel mechanism that involves the TLR-2 receptor complex and protects against the DSS-induced colitis by targeting the intestinal TJ barrier.

Intestinal epithelial tight junctions (TJs) are the apical-most junctional complexes and act as a functional and structural barrier against the paracellular permeation of harmful luminal antigens, which promote intestinal inflammation.¹ The increased intestinal permeability caused by defective intestinal epithelial TJ barrier or a leaky gut is an important pathogenic factor that contributes to the development of intestinal inflammation in inflammatory bowel disease (IBD) and other inflammatory conditions of the gut, including necrotizing enterocolitis and celiac disease.^2,3 Clinical studies in patients with IBD have found that a persistent increase in intestinal permeability after clinical remission is predictive of poor clinical outcome and early recurrence of the disease, whereas normalization of intestinal permeability correlates with a sustained long-term clinical remission.4, 5, 6 Accumulating evidence has found that a defective intestinal TJ barrier plays an important role in exacerbation and prolongation of intestinal inflammation in IBD. Currently, no effective therapies that specifically target the tightening of the intestinal TJ barrier are available.Intestinal microbiota play an important role in modulating the immune system and in the pathogenesis of intestinal inflammation.⁷ Patients with IBD have bacterial dysbiosis in the gut, characterized by a decrease in bacterial diversity and an aberrant increase in some commensal bacteria, which are an important factor in the pathogenesis of intestinal inflammation.^8,9 Normal microbial flora of the gastrointestinal tract consists both of bacteria that are known to have beneficial effects (probiotic bacteria) on intestinal homeostasis and bacteria that could potentially have detrimental effects on gut health (pathogenic bacteria).¹⁰ The modulation of intestinal microflora affects the physiologic and pathologic states in humans and animals. For example, fecal transplantation from healthy, unaffected individuals to patients with refractory Clostridium difficile colitis is curative in up to 94% of the treated patients, and transfer of stool microbiome from obese mice induces obesity in previous lean mice, whereas transfer of microbiome from lean mice preserves the lean phenotype.11, 12, 13 The beneficial effects of gut microbiota are host and bacterial species-specific.¹⁴ Although multiple studies indicate that some commensal bacteria play a beneficial role in gut homeostasis by preserving or promoting the intestinal barrier function, because of conflicting reports, it remains unclear which probiotic species cause a persistent predictable enhancement in the TJ barrier and could be used to treat intestinal inflammation by targeting the TJ barrier. For example, some studies suggest that Lactobacillus acidophilus, Lactobacillus casei, Lactobacillus plantarum, or Lactobacillus rhamnosus cause a modest enhancement in the intestinal epithelial TJ barrier, whereas others have found minimal or no effect of these probiotic species on the intestinal TJ barrier.15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25 The major aim the current study was to perform a high-throughput screening of Lactobacillus and other bacterial species to identify probiotic species that induce a rapid, predictable, and marked increase in the intestinal epithelial TJ barrier and protect against the development of intestinal inflammation by preserving the intestinal TJ barrier.In the studies described herein, most of the probiotic species tested (>20 species or strains) had a modest or minimal effect on intestinal TJ barrier function. L. acidophilus uniquely caused a rapid and marked increase in intestinal TJ barrier function. Further analysis indicated that the effect of L. acidophilus was strain-specific, limited to a specific strain of L. acidophilus, and did not extend to other L. acidophilus strains. The L. acidophilus enhancement of the intestinal TJ barrier was mediated by live bacterial-enterocyte interaction that involved Toll-like receptor (TLR)-2 heterodimeric complexes on the apical membrane surface of intestinal epithelial cells. Our animal studies also found that L. acidophilus causes a marked enhancement in mouse intestinal barrier function and protects against the dextran sodium sulfate (DSS)–induced colitis by preserving and augmenting the mouse intestinal barrier function in a strain-specific manner.     

大鼠心冠状动脉系统神经肽Y年龄变化的免疫组织化学研究

运用免疫组化ＡＢＣ法对不同月龄ＳＤ大鼠心脏冠状动脉及其分支含神经肽Ｙ神经纤维的分布及其衰老变化作了详细观察．结果表明：左、右冠状动脉及其各级分支具有丰富的神经肽Ｙ能神经分布．在冠状动脉主干及其较大分支上，神经纤维较稠密，主要呈环状或网状分布，在血管围周形成较多束、丛、网，并伸入血管壁内形成壁内的神经网络分布．部分神经纤维的游离末梢有穿过血管内膜伸向腔面的迹象．在细小的冠状动脉分支上，神经纤维密度减低，主要沿血管长袖是纵向分布．两侧冠状动脉系统神经肽Ｙ能纤维分布形式及密度没有差别．老龄组动物，左、右冠状动脉及其分支的神经肽Ｙ能纤维密度趋于下降，纤维变细，呈断续状，膨体数量减少，免疫染色变浅、此外，在心内发现了神经肽Ｙ能神经节．     

Chemoarchitecture and afferent connections of the "olfactostriatum": a specialized vomeronasal structure within the basal ganglia of snakes

The olfactostriatum, a portion of the striatal complex of snakes, is the major tertiary vomeronasal structure in the ophidian brain, receiving substantial afferents from the nucleus sphericus, the primary target of accessory olfactory bulb efferents. In the present study, we have characterized the olfactostriatum of garter snakes (Thamnophis sirtalis) on the basis of chemoarchitecture (distribution of serotonin, neuropeptide Y and tyrosine hydroxylase) and hodology (afferent connections). The olfactostriatum is densely immunoreactive for serotonin and neuropeptide Y and shows moderate-to-weak immunoreactivity for tyrosine hydroxylase. In addition to afferents from the nucleus sphericus, the olfactostriatum receives inputs from the dorsal and lateral cortices, nucleus of the accessory olfactory tract, external and dorsolateral amygdalae, dorsomedial thalamic nucleus, ventral tegmental area and raphe nuclei. Double labeling experiments demonstrated that the distribution of serotonin and neuropeptide Y in this area almost completely overlaps the terminal field of projections from the nucleus sphericus. Also, serotonergic and dopaminergic innervation of the olfactostriatum likely arise, respectively, from the raphe nuclei and the ventral tegmental area, whereas local circuit neurons originate the neuropeptide Y immunoreactivity. These results indicate that the olfactostriatum of snakes could be a portion of the nucleus accumbens, with features characteristic of the accumbens shell, devoted to processing vomeronasal information. Comparative data suggest that a similar structure is present in the ventral striatum of amphibians and mammals.     

瘦素（leptin）与肥胖

Obesity is a severely public health problem the whole society faces, and it is correlated closely with many diseases, such as diabetesⅡ, hypertension, coronary heart disease,gallqtone, and so on.Therefore it threatens people‘ s survival quality severely. Obesity is a multiple - factor disease including genetic, metabolic and behavioral factor, and the gene is the main determining factor. With the development of molecular biology technique, people have founded several genes involved in obesity. Among these genes, the research on obese gene is the most profound. The protein leptin is the expression product of the obese gene.This review elucidates the structure, the main biological function, the mechanism of leptin and it‘‘s relationship with obesity.     

Evans蓝用于鼠皮肤炎症反应损害程度的量化分析

目的：利用Evans蓝对由组胺和神经肽P物质引起的局部皮肤炎症损害、渗出，进行量化分析。方法：从Balb/c鼠尾静脉注射标定浓度的Evans蓝100 μL，麻醉后在脊背局部皮内分别注射20 μL组胺、神经肽物质P及生理盐水，15 min后处死动物，切下反应皮肤区，取约1 cm×1 cm×1 cm组织放入600 μL二甲酰胺溶液的小瓶中保存。实验时取出组织55 ℃避光孵育24 h，取200 μL孵化液用分光光度计进行测定，测量渗出的Evans蓝的吸光度进行定量分析。结果：Evans蓝注射后5 min给予组胺3.0 μg/0.2 cm2诱导效果最佳，可得到最大的Evans蓝吸光度。Evans蓝注射后10 min，给予0.1 μg/0.2 cm2神经肽P物质可得到最大的Evans蓝吸光度。Evans蓝在0.312-100 mg/L浓度范围内与吸光度呈线性关系。结论：Evans蓝可用于由组胺和神经肽P物质诱导的鼠局部皮肤炎症损害渗出的定量监测分析，所建立的评估超敏反应程度的方法简单、敏感且可定量。     

FISH deletion mapping defines a single location for the Y chromosome stature gene, GCY

At least 1 in 1000 males lacks part of the long arm of the Y chromosome. This chromosomal aberration is often associated with short stature and infertility. Deletion mapping and genotype-phenotype analysis have previously defined two non-overlapping critical regions for growth controlling gene(s), GCY(s), on the euchromatic portion of the Y chromosome long arm. These initial mapping assignments were based on the analysis of patients carrying a pure 46,XYq- karyotype as defined by classical cytogenetic karyotyping. Four genes have been assigned to the distal one of the two critical regions. To determine whether one or both of these two critical regions harbours GCY and whether one of the four genes assigned to the distal region is involved in determination of stature, nine adult patients with Yq chromosomal abnormalities were studied in detail. By PCR and FISH analysis, we showed that all patients with a previously defined pure 46,XYq- karyotype are actually mosaics with cells containing an idic(Y) or ring(Y) chromosome in association with 45,X0 cells. This leads us to conclude that (1) FISH is an absolute prerequisite for the correct identification of Y chromosomal rearrangements and (2) only patients with interstitial Y deletions are reliable predictors for the physical location of stature gene(s) on Yq. Our molecular analyses of chromosomes from patients with interstitial Yq deletions finally establishes the proximal interval between markers DYZ3 and DYS11 as the only GCY critical interval. No functional gene has so far been identified in this region adjacent to the centromere.     

心包积液中几种多肽类物质的观察

目的 :为探讨C型利钠多肽 (CNP)、神经肽Y(NPY)、降钙素基因相关肽 (CGRP)在心包积液时的变化及其作用。方法 :用放射免疫分析测定心包积液患者的血液和心包积液中的CNP、NPY、CGRP水平。并与正常对照组的血液中的水平进行比较。结果 :血液和心包积液中的CNP显著高于对照组 (p <0 0 1) ,血液中NPY和CGRP则与对照组无显著性差异 (p >0 0 5 ) ,心包积液中NPY水平显著低于血液中 (p <0 0 5 ) ,心包积液中的CGRP水平则显著高于血液中 (p <0 0 1)。心包积液的量与心包积液中CNP、CGRP呈正相关 (r=0 71,p <0 0 1,r=0 5 7,p <0 0 1)与NPY呈负相关 (r=- 0 6 7,p <0 0 1) ,心包积液中的CNP、NPY和CGRP与其血液中的浓度间无显著相关性 (p >0 0 5 )。结论 :心包积液中有一定量的CNP、NPY和CGRP ,很可能由心包分泌。心包积液患者体内的CNP、NPY和CGRP的改变可能对心包积液的病理生理状况起到重要的调节作用。