Survey of the Distribution of a Newly Characterized Receptor for Advanced Glycation End Products in Tissues

Advanced glycation end products (AGEs), the final products of nonenzymatic glycation and oxidation of proteins, are found in the plasma and accumulate in the tissues during aging and at an accelerated rate in diabetes. A novel integral membrane protein, termed receptor for AGE (RAGE), forms a central part of the cell surface binding site for AGEs. Using monospecific, polyclonal antibody raised to human recombinant and bovine RAGE, immunostaining of bovine tissues showed RAGE in the vasculature, endothelium, and smooth muscle cells and in mononuclear cells in the tissues. Consistent with these data, RAGE antigen and mRNA were identified in cultured bovine endothelium, vascular smooth muscle, and monocyte-derived macrophages. RAGE antigen was also visualized in bovine cardiac myocytes as well as in cultures of neonatal rat cardiac myocytes and in neural tissue where motor neurons, peripheral nerves, and a population of cortical neurons were positive. In situ hybridization confirmed the presence of RAGE mRNA in the tissues, and studies with rat PC12 pheochromocytes indicated that they provide a neuronal-related cell culture model for examining RAGE expression. Pathological studies of human atherosclerotic plaques showed infiltration of RAGE-expressing cells in the expanded intima. These results indicate that RAGE is present in multiple tissues and suggest the potential relevance of AGE-RAGE interactions for modulating properties of the vasculature as well as neural and cardiac function, prominent areas of involvement in diabetes and in the normal aging process.     

Ryk-mediated Wnt repulsion regulates posterior-directed growth of corticospinal tract

Guidance cues along the longitudinal axis of the CNS are poorly understood. Wnt proteins attract ascending somatosensory axons to project from the spinal cord to the brain. Here we show that Wnt proteins repel corticospinal tract (CST) axons in the opposite direction. Several Wnt genes were found to be expressed in the mouse spinal cord gray matter, cupping the dorsal funiculus, in an anterior-to-posterior decreasing gradient along the cervical and thoracic cord. Wnts repelled CST axons in collagen gel assays through a conserved high-affinity receptor, Ryk, which is expressed in CST axons. Neonatal spinal cord secretes diffusible repellent(s) in an anterior-posterior graded fashion, with anterior cord being stronger, and the repulsive activity was blocked by antibodies to Ryk (anti-Ryk). Intrathecal injection of anti-Ryk blocked the posterior growth of CST axons. Therefore, Wnt proteins may have a general role in anterior-posterior guidance of multiple classes of axons.     

脊髓损伤后神经修复过程中的细胞微环境北大核心

背景:以往的研究显示单一改变脊髓损伤区域某一基因表达或者某一细胞的状态,对脊髓损伤后功能恢复无显著影响,而大量证据表明调控脊髓损伤后紊乱的细胞微环境是神经功能恢复的关键因素。目的:对脊髓损伤前后细胞微环境的生物学特性,包括多种细胞之间的相互调控以及细胞外组分对损伤神经修复的作用和机制进行综述。方法:由第一作者检索PubMed及Web of Science数据库,英文检索词为“spinal cord injury,glial cell,neuron,immune cell,neural stem cell,extracellular matrix,cytokine,extracellular vesicle,regeneration”。文献检索的时间范围为2000年1月至2021年12月,最终筛选出64篇文献进行分析。结果与结论:①脊髓损伤后,在细胞微环境的细胞组分中,占比最高的胶质细胞间的相互作用,以及与神经元的相互调控作用最为关键。②在脊髓损伤后的细胞外组分中,利用生物相容性良好的水凝胶模仿天然细胞外基质,可有效模拟和重建损伤区域内的细胞微环境,促进轴突伸长。③在脊髓损伤后的细胞外调节因子中,促炎因子如肿瘤坏死因子α和白细胞介素1β等加剧了细胞微环境的炎症反应,应用受体抑制剂或阻断相关通路抑制上述促炎因子的表达是一种有效的治疗方法,同时在脊髓微环境中增加白细胞介素10等抗炎因子的表达,抑制损伤区域炎症发展的研究也陆续出现。④最近被重视起来的细胞外囊泡作为传递信息的载体在细胞微环境中也发挥了重要作用。⑤文章揭示了脊髓损伤后细胞微环境中的包括细胞组分和细胞外组分之间的多组相互调控关系,证实了细胞微环境中各组分之间所发挥的神经修复作用并不是孤立的。     

Wg3h细胞系转染PSV_2-neo质粒前后生长特性及表面超微结构改变的研究

本文对转染PSV_2-neo质粒后的Wg3h细胞系(Wg3h-neo)在长期传代中的生长特性和表面超微结构与母系Wg3h细胞进行了比较研究。结果发现:转染后Wg3h细胞的DNA合成及生长速度明显高于母系Wg3h细胞,生长饱和密度增大。在软琼脂培养中不形成集落,接种在裸鼠不长肿瘤。在扫描电镜下,细胞表面的微绒毛较母系Wg3h细胞丰富。Southern印迹杂交实验证明PSV_2-neo质粒已整合到宿主细胞的基因组中。转染后Wg3h细胞的生长特性和表面超微结构均发生了某些转化特征。     

Molecular mechanisms underlying IFN-{gamma}-mediated tumor growth inhibition induced during tumor growth inhibition induced during tumor immunotherapy with rIL-12

The present studnt Investigates the molecular by which IFN-produced as a result of in vitroIL-12 addministration exertsits anty-tumor,rIL-12 was administered three or five times intomice bearing CDA1M fibrosarcoma, OV-HM ovarian carcinoma orMCH-1-A1 fibosarcoma. This regimen induced complete regressionof CSA1M and OV-HM tumors but only transient growth inhibitionof MCH-1-A1 tumors. The anty-tumor effects of Il-12 were associatatedwith enhanced induction of IFN-becouse these effects were abrogatedby pretreatment of hosts with anti-IFN- antibody.Exposure inin vitro of the three types of tumor cells to rIFN- resultedin moderate to potent inhibition of tumor cell growth.IFNstimulatedthe expression of mRNAs for an inducible type of NO synthasa(INOS)in CSA1M cells and indoleamine 2,3-dioxygenasa (IDO),an enzyme capable of degrading tryptophan, in OV-HM cells ,but induced only marginal levels of these mRNAs in MCH-I-ALcells. In association withiNOS gene expression, INF--stimulatedCSA1M cells produced a large amount of NO which functioned toinhibit their own growth in vitro. Although OV-HM and MCH-1-A1cells did not produce NO, they also exhibited NO susceptibility.Whereasthe tumor masses from IL-12-treated CSA1M-bearing mice inducedhigher levels of INOS (for CSA1M) or IDO and iNOS (for OV-HM)mRNAs,the MCH-1-A1 tumor mass expressed lower levels of iNOS mRNAalone.Moreover, massive infiltration of CD4⁺and CD8⁺ T cellsand Mac-1⁺ cells was seen only in the CSA1M and OV-HM tumors.Thus, these results indicate that IFN- produced after IL-12treatment induces the expression of various genes with potentialto modulate tumor cells and growth by acting directly on tumorecells or stimulating tumor-infiltrating lymphold cells and thatthe effectiveness of IL12 therapy is assoiated with the operation if these mechanisms.     

Distinct roles of type I bone morphogenetic protein receptors in the formation and differentiation of cartilage

The bone morphogenetic proteins (BMPs), TGFβ superfamily members, play diverse roles in embryogenesis, but how the BMPs exert their action is unclear and how different BMP receptors (BMPRs) contribute to this process is not known. Here we demonstrate that the two type I BMPRs, BMPR-IA and BMPR-IB, regulate distinct processes during chick limb development. BmpR-IB expression in the embryonic limb prefigures the future cartilage primordium, and its activity is necessary for the initial steps of chondrogenesis. During later chondrogenesis, BmpR-IA is specifically expressed in prehypertrophic chondrocytes. BMPR-IA regulates chondrocyte differentiation, serving as a downstream mediator of Indian Hedgehog (IHH) function in both a local signaling loop and a longer-range relay system to PTHrP. BMPR-IB also regulates apoptosis: Expression of activated BMPR-IB results in increased cell death, and we showed previously that dominant-negative BMPR-IB inhibits apoptosis. Our studies indicate that in TGFβ signaling systems, different type I receptor isoforms are dedicated to specific functions during embryogenesis.     

Creutzfeldt-Jakob disease (CJD) with a mutation at codon 148 of prion protein gene: relationship with sporadic CJD

Creutzfeldt-Jakob disease (CJD), the most common human prion disease, includes sporadic (s) and familial (f) forms. Regardless of etiology, both forms are thought to share the pathogenic mechanism whereby the cellular prion protein (PrP(C)) converts into its pathogenic isoform (PrP(Sc)). While PrP(C) conversion is thought to be random in sCJD, conversion in fCJD is facilitated by the congenital presence of mutated PrP. Differences in PrP genotype (PRNP) and in conversion circumstances lead to PrP(Sc) with distinct characteristics that elicit different disease phenotypes. Here, we describe a case of fCJD with a substitution of histidine (H) for arginine (R) at codon 148 (R148H) and heterozygosity of the methionine/valine (M/V) polymorphic codon 129, with the 129M allele coupled with the mutation. The disease phenotype and all major characteristics of PrP(Sc) of fCJD(R148H) were virtually indistinguishable from those of sCJDMV2, which has features different from those of any other sCJD. Therefore, despite the differences in etiology, PRNP, and conversion process, the two forms of PrP(Sc) had similar characteristics. Furthermore, comparison of fCJD(R148H) with a recently reported case carrying R148H and homozygosity at codon 129 suggests that codon 129 coupled with the mutation as well as that located on the normal allele can modify major phenotypic and PrP(Sc) features of fCJD(R148H).     

毛细胞PMCA2在小鼠内耳Ca2+调节和听觉平衡中的作用

目的： 研究小鼠内耳毛细胞细胞膜Ca²⁺-ATP酶2型蛋白（PMCA2）在听觉平衡生理中的作用及意义。 方法：利用不同基因型小鼠PMCA2^-/-(突变纯合子)、PMCA2^+/-(杂合子)和PMCA2^+/+(野生型)为实验对象，采用听觉脑干反应(ABR)、畸变产物耳声发射(DPOAE)和耳蜗内电位(EP)检测等方法，分别检测不同基因型小鼠的内耳生理功能。结果：PMCA2^+/+野生型鼠的听力正常，ABR的短声(click)阈值为(13.75±11.08)dB SPL；EP均值为(91.3±11.0)mV。PMCA2^+/-杂合子小鼠听力低于同窝PMCA2^+/+野生型鼠，ABR的短声阈值为(63.89±12.90)dB SPL，与PMCA2^+/+小鼠比较差异显著(P<0.01)；PMCA2^+/-小鼠没有检测出DPOAE的高频区辐值，其EP均值为(80.7±9.0)mV。PMCA2^-/-小鼠的ABR在100 dB SPL无反应，表现出全聋和平衡功能失调，其EP均值为(56.6±13.0)mV；PMCA2^-/-小鼠没有检测出DPOAEs。结论：PMCA2是内耳毛细胞纤毛丛上的重要Ca²⁺转运通道，对维持内耳的Ca²⁺代谢和听觉平衡功能有重要作用。     

应用IRS-PCR对金黄色葡萄球菌分型的研究

目的探讨低频限制性位点聚合酶链反应(infrequent-restriction-site PCR，IRS-PCR)在金黄色葡萄球菌(简称金葡菌)基因分型中的应用价值。方法建立本实验室IRS-PCR方法。同时用IRS-PCR和脉冲场凝胶电泳(PFGE)对金葡菌进行基因分型。根据49株社区感染分离菌的分型结果计算辨别力指数(ID)值估计分辨力。对其中30株社区感染菌重复实验一次估计重复性。比较两种基因分型方法的分型率、分辨力、重复性、结果的一致率及操作特点。结果建立IRS-PCR对金葡菌基因分型的方法。70株金葡菌均可被2种方法分型，分型率100％。IRS-PCR分为38个型，21株院内感染菌分为6个型，49株社区感染菌分为32个型，计算ID值为0．981。PFGE分为40个型，21株院内感染菌分为6个型，49株社区感染菌分为34个型，计算ID值为0．983。两种分型方法的重复性均为100％。对院内感染菌，两种方法分型的一致率为100％；对社区感染菌，两种方法分型的一致率为92％(45／49)。与PFGE相比，IRS-PCR更简单、省时、易于操作、不需特殊昂贵仪器。结论IRS-PCR能对金葡菌简易快速可靠分型，适合检验科对临床标本的快速有效分型，是一种有价值的分子流行病学研究工具。