益生菌以及益生元在肥胖及其代谢综合征中的潜在作用

肥胖以及相关的代谢综合征已经成为全球性的公共健康问题。大量的研究表明,肥胖形成以及减肥过程均与肠道菌群密切相关且相互影响。肠道菌群以及弱炎症反应成为肥胖以及相关代谢综合征的两大重要影响因素。本文综述了近几年来,肠道菌群失调对宿主能量储存以及新陈代谢的影响,以及弱炎症反应对肥胖引起的代谢综合征的影响。大量的研究证明,益生元有助于益生菌的生长,而益生菌可以调节肠道菌群以及改善肠道内弱炎症反应,借助于益生菌以及益生元的方法也许能为由肠道菌群失调以及弱炎症反应引起的肥胖及其代谢综合征提供一种新的治疗方法。     

后生元(postbiotics):调节肝硬化患者肠道菌群及疾病进程的新策略

肝硬化是慢性肝炎发展的终末阶段,患者出现有不同程度的肠道菌群失调,并伴有肠道屏障功能的缺失和菌群移位,是引发肝硬化并发症的重要原因。尽管益生菌能在多个层面保护肠道屏障功能,但其在肝硬化肠道菌群紊乱中的疗效并不明确。现在的研究发现一些益生菌的组分或代谢产物有着与益生活菌类似的益生功效,包括稳定肠道菌群、加强肠上皮屏障功能和调节肠黏膜免疫反应等,其重要的优点是具有明确的分子结构和显著的生物活性,可能是未来调节肝硬化肠道菌群及疾病进程的新方向。本文主要总结了肝硬化肠道菌群失调对于肝硬化并发症及疾病进程的影响,探讨了益生菌的作用及局限性,并重点讨论后生元在调控肝硬化肠道菌群及疾病进程中的应用前景。     

益生菌的治疗现状与前景以及 对呼吸道有益菌探索的研究进展

益生菌是调节机体微生态失衡的有效途径。肝功能异常影响肠道微生物,慢性肝衰竭、2型糖尿病、动脉粥样硬化相关心血管疾病等与肠道微生态失衡密切相关。同时肠道菌群亦受环境、遗传等复合条件影响,改变菌群组成可能导致疾病的发生发展。提倡益生菌对疾病的预防、治疗、预后,改善机体微环境,提高生命质量。近年来,益生菌、益生元、合生元三方面的研究飞速发展,对肠道益生菌研发已经取得一定成果。呼吸道作为与外界相通的腔道其优势菌群已经有相关报道,但对呼吸道益生菌的探索尚不明确,呼吸道内的优势菌是否可以制成益生菌制剂尚有待研究。     

益生菌及益生元调节骨代谢的研究进展

骨质疏松症已成为威胁中老年人健康的主要疾病之一,越来越多的人受到该病症的危害.肠道菌群是定殖在机体肠道内,与宿主形成共生关系的微生物,对宿主的免疫及代谢等产生重要影响,研究发现,肠道菌群与骨代谢之间存在密切关系,本文从肠道菌群与免疫、骨代谢与免疫、肠道菌群与骨代谢、益生菌及益生元调节骨代谢等几个方面阐述,肠道菌群有望成为骨质疏松症治疗的一个新靶点,通过益生菌或益生元来干预肠道菌群组成,进而调节免疫系统状态,抑制促炎因子的生成,从而降低骨吸收作用,达到预防和治疗骨质疏松症的目的.     

益生菌、益生元对慢性肾脏疾病治疗的研究进展

益生菌是近些年来的研究热点,其对人体的有益作用越来越被关注,其在治疗众多疾病上有显著效果,本文将分析和总结益生菌对慢性肾脏疾病(chronic kidney disease,CKD)方面的重要影响。益生菌通过黏液层、上皮层、肠相关淋巴组织这三个层次对肠道进行作用,并且增加黏液和上皮细胞紧密连接以及上皮细胞的存活力来增强肠道屏障,而且又可以发挥营养作用。在其对CKD的影响中,益生菌、益生元和合生元可以降低尿毒症毒素,也可以减少免疫炎症的反应,提高肾功能和生活质量。益生菌组合剂量、益生菌与益生元组合方式都会影响益生菌制剂的效果,并且个体肠道的差异以及抗生素的使用等也都对实验有影响。本综述包括了益生菌对CKD的潜在作用机制和研究方法的进展,对以后精准医疗模式下防治CKD提供新的思路和靶点。     

益生菌剂与益生协同剂的协同作用的研究及应用现状

在微生态理论指导下采用已知有益的微生物 ,经培养、发酵、干燥等特殊工艺制成的生物制剂或活菌制剂称为益生菌剂或动物微生态制剂 ,其主要作用是通过生物夺氧、菌群调整、生物拮抗、提高免疫功能和增强酶活性 ,以达到防治动物肠道病原性腹泻和促生长作用。益生菌剂防治动物肠道疾病的效果显著高于抗生素及其他抗菌药物 ,而促生长作用一般尚未达到抗生素水平。因此为提高益生菌剂的促生长作用 ,人们又积极地进行益生协同剂的研究、开发和应用。从微生态学观点和提高动物生产性能出发 ,益生协同剂是指对体内自身的益生菌和从体外进入体内的益…     

Faecalibacterium prausnitzii与人类疾病关系的研究进展

Faecalibacterium prausnitzii(F.prausnitzii)是定植于哺乳动物胃肠道中的共生菌,同时也是健康成人肠道菌群中最丰富的细菌之一。本研究主要对F.prausnitzii与人体代谢性疾病如肥胖、糖尿病及宿主的消化道疾病如炎症性疾病、结肠癌等疾病的相关研究现状进行综述,着重讨论了F.prausnitzii作为潜在益生菌在肠道疾病中的重要作用,进而通过使用益生菌或者改变肠道内F.prausnitzii的数量达到预防或治疗肥胖、糖尿病及肠道疾病的目的。     

罗伊氏乳杆菌的益生功能

罗伊氏乳杆菌是目前已报道的几乎可存在于所有脊椎动物和哺乳动物肠道内的乳酸杆菌,是具有益生功效的肠道益生菌.通过对罗伊氏乳杆菌良好的肠道定植能力和其产生的罗伊氏菌素的介绍,阐明其可能的益生作用机理.重点论述了罗伊氏乳杆菌促进人类和动物健康功能的研究进展,并探讨了今后罗伊乳杆菌益生菌制剂的工业化发展趋势.     

肠道微生态与肥胖

人的肠道是一个丰富的微生态系统,含有100万亿多的微生物,种类多达500-1000个,这些微生物的基因总数是人体基因组所含基因总数的100倍。肠道微生物丛的组成种类和数量与宿主的肥胖有关,无菌小鼠含有的脂肪量比正常饲养小鼠低42％,如果将微生物丛植入到无菌小鼠体内后,导致脂肪总量增加57％。提示肠道微生物丛可以明显的促进小鼠对热能的摄人,促使脂肪的沉积,触动全身性炎症反应。因此,对肥胖的治疗可以采用益生菌和益生元来调节肠道微生物丛的状态以期获得治疗效果。本研究述及肠道微生丛对宿主肥胖及其代谢机制的研究进展。     

益生菌产生的细菌素及其功能机制

细菌素是细菌核糖体合成的具有抑菌活性的小肽.细菌素的产生是益生菌重要的益生特性,它们天然无毒,不仅对食品腐败菌和人体致病菌有很好的抑菌活性,还具有有助益生菌定殖和调节肠道菌群等益生特性.本文综述了益生菌产生的细菌素的种类、条件性合成、益生功能及其作用机理等,以期为深入认识益生菌的益生功能及其作用方式,研究开发对人体有益...     

Relative and combined effects of ethanol and protein deficiency on strontium and barium bone content and fecal and urinary excretion

To elucidate accumulation of minerals in human iliac arteries with aging, the content of minerals was analyzed by inductively coupled plasma atomic emission spectrometry. Bilateral common, internal, and external iliac arteries of 16 men and 8 women, ranging ages from 65 to 93 yr, were examined. It was found that an extremely high accumulation of calcium and phosphorus occurred in the common iliac artery at old age, being higher than that of the internal and external iliac arteries. It should be noted that the accumulation of calcium and phosphorus is the highest in the common iliac artery among the human arteries examined to date. Regarding sexual differences, the content of calcium and phosphorus in the common and internal iliac arteries was higher in women than in men, whereas their content in the external iliac artery was lower in women than in men.     

白蚁与动物及微生物的共生类型及其机制

综述了白蚁螱客的主要种类、共生关系及相关机制的研究进展。白蚁螱客中,已报道的动物种类达170种。在与动物的共生关系中存在偏利共生（宾主共栖和异种共栖）、互利共生和无关共生三种;在与微生物的共生关系中,存在与内生菌（原生动物、细菌、真菌和放线菌）和外生菌（蚁巢伞菌等）间的互利关系。指出了白蚁与螱客研究中存在的问题,给出了解决方案,并提出了今后可能的研究热点或方向,为白蚁的综合利用（如纤维素酶）及今后研究物种间的协同进化提供了基础资料。     

New amino-dithiaphospholanes and phosphoramidodithioites and their rhodium and iridium complexes

New sulfur derivatives of phosphoramidite ligands were synthesized and the impact of the sulfur unit on the spectroscopic properties of their rhodium and iridium complexes was investigated. The new ligands Bn₂NPSCH₂CH₂S^a(P-S^a) (Bn = benzyl, 4), Bn₂NPSCHCHS^a(CH₂)₃C^aH₂(P-S^a)(C^a-S^a) (6) and Bn₂NP(4-XC₆H₄OMe)₂ (X = S, 7a; X = O, 7b) were converted to the rhodium and iridium complexes trans-[Rh(CO)Cl(L)₂] (L = 4, 6, 7), [RhCl(COD)(L)] (L = 4, 6, 7), [IrCl(COD)(7a)] and [IrCl₂Cp∗(6)]. For comparison, some phosphoramidite complexes of these formulations also were synthesized. The new metal complexes were spectroscopically analyzed. For the carbonyl complexes, the ν_CO IR stretching frequencies were lower than for the corresponding phosphite and phosphoramidite ligands. The ¹J_PRh coupling constants for the rhodium complexes with the new ligands were also smaller than for the respective phosphoramidite and phosphite complexes. Finally, the ¹J_PSe coupling constants of the selenides of the new ligands were lower than those of the phosphoramidite ligands but higher than for PPh₃. The spectroscopic data reveal that the new thio ligands 4, 6 and 7a are more electron donating than phosphites and phosphoramidites but less electron donating than PPh₃.     

Astrocytes and Synaptosomes Transport and Metabolize Lactate and Acetate Differently

Astrocytes transport the monocarboxylate acetate, but synaptosomes do not. The reason for this is unknown, because both preparations express monocarboxylate transporters (MCT). The transport and metabolism of lactate, another monocarboxylate, was examined in these two preparations, and the results were compared to those for acetate. Lactate transport is more rapid in astrocytes than in synaptosomes, but of lower affinity (Kms of 17 and 4 mM, respectively). Lactate (0.2 mM) is metabolized to CO2 more rapidly in synaptosomes than in astrocytes (rates of 0.37 and 0.07 nmol x mg protein(-1) x min(-1), respectively). The reason for this is unclear, but cellular differences in lactate dehydrogenase isotype expression may be involved. Acetate is metabolized to CO2 more rapidly in astrocytes than in synaptosomes (rates of 0.43 and 0.02 nmol x mg protein(-1) x min(-1), respectively). This is likely due to cellular differences in the expression of monocarboxylate transporter subtypes.     

Rapporteur report: Basics and technology and metrology and standards

The first and second sessions of the Workshop focussed on the basics of ultrasound and infrasound, their applications in both industry and medicine, and metrology and protection standards for ultrasound applications.     

Prostaglandin and thromboxane production by human and guinea-pig macrophages and leucocytes

The ability of partially purified human and guinea-pig haematogenous cell populations, when cultured in vitro, to metabolise arachidonic acid (AA) has been studied. Supernatants from 24 hour cell culture have been subjected to analysis for products of AA metabolism by gas chromatography with electron-capture detection.The cell types studied were human peripheral blood monocytes (both glass adherent and non-adherent), neutrophils, eosinophils and leukemic leucocytes; thoracic duct lymphocytes and lung alveolar macrophages. From the guinea-pig, induced and non-induced macrophage or neutrophil enriched peritoneal exudate populations, lymph node cells, peritoneal eosinophils and peripheral blood platelets were examined. Supernatants were assayed for the presence of PGE₂, PGD₂, PGF_2α, TXB₂ and 6-keto-PGF_1α. In all types studied PGE₂ and TXB₂ were the major products formed. The identification of PGE₂ and TXB₂ was confirmed by GC/MS with multiple ion monitoring.The results have been compared with other reports and their possible significance discussed in relation to the proposed role of prostaglandins as mediators and modulators in immunopathology.     

Cytoskeleton and mitochondrial morphology and function

It has been well established that the cytoskeleton is an essential modulator of cell morphology and motility, intracytoplasmic transport and mitosis, however cytoskeletal linkage to the organelles has not been unequivocally demonstrated. Indeed, cytoskeleton appears to be essential in determining and modulating gene phenotype as a function of cellular environment. According to recent studies, the organization of the cytoskeleton network together with associated protein(s) could be essential in regulating mitochondrial function and particularly the permeability of the mitochondrial outer membrane to ADP. The aim of this chapter is to summarize the main properties of the cytoskeletal environment of mitochondria and the possible role(s) of this network in mitochondrial function in myocytes.     

Cross-reactivity between storage and dust mites and between mites and shrimp

Many patients have sensitivities to multiple species of storage and house dust mites. It is not clear if this is because patients have multiple sensitivities to species-specific mite allergens or if these mites share many cross-reacting allergens. Our objective was to further define the cross-allergenicity between several species of storage and house dust mites using crossed-immunoelectrophoresis (CIE), crossed-radioimmunoelectrophoresis (CRIE), immunoblotting, and ELISA. CIE and CRIE reactions revealed that storage mites shared two cross-antigenic molecules and one of these bound IgE in a serum pool from mite allergic patients. Antibody in anti-sera built to each species of mite recognized many SDS–PAGE resolved proteins of other mite species and this suggested the potential for other cross-reactive allergens. Among patient sera, IgE bound to many different proteins but few had IgE that bound to a protein with common molecular weights across the mite species and this suggested mostly species-specific allergens. Antiserum built to each mite species precipitated one protein in shrimp extracts that bound anti-Der p 10 (tropomyosin) and IgE in the serum pool. Anti-Der p 10 showed strong binding to shrimp tropomyosin but very little to any of the mite proteins. ELISA showed the mite extracts contained very little tropomyosin. The storage and dust mites investigated contain mostly species-specific allergens and very small amounts of the pan-allergen tropomyosin compared to shrimp and snail.