低分子肝素的抗炎作用及机制

低分子肝素(low molecular weight heparin, LMWH)除作为抗凝血和抗血栓药在临床上广为应用外,近年来其抗炎活性也颇受重视.LMWH抗炎机制涉及炎症细胞、炎症因子和黏附分子等环节.目前对LMWH的抗炎机制研究还处在初级阶段,但是LMWH独特的性质使其有望成为有效且安全的新型抗炎药物.     

低分子量肝素钠的制备与临床应用

低分子肝素有抗凝血、抗血栓、调血脂、抗肿瘤等作用,与普通肝素相比具有皮下注射吸收好、半衰期长、生物利用率高,与血浆、血小板亲和力小、出血副作用少等优点.对低分子肝素的制备、质量检测和临床应用的研究进展进行了综述.     

低分子肝素对MPTP帕金森小鼠的治疗作用及可能机制

目的：研究1．甲基4-苯基-1,2,3,6-四氢吡啶（1-methy-4-phenyl-1,2,3,6-tetrahy-dropyridine,MPTP）帕金森病（PD）模型中小胶质细胞的激活情况,探讨低分子肝素对MPTP导致的小胶质细胞活化的抑制作用。方法：C57BL随机分成正常对照组、MPTP组、低分子肝素＋MPTP组。MPTP组腹腔注射MPTP（30mg／kgx7d）同时腹部皮下注射生理盐水,低分子肝素＋MPTP组在注射MPTP同时腹部皮下注射低分子肝素（1501U／kg·12hx7d）。各组于末次给药后予行为学测试,7d后免疫组化检测酪氨酸羟化酶（TyrosineHydroxylase,TH）阳性细胞。镀银染色观察小胶质细胞激活情况。结果：MPTP组较低分子肝素＋MPTP组爬竿时间明显延长,并出现更多非随意动作。低分子肝素＋MPTP组黑质部位TH阳性细胞数量高于MPTP组。MPTP组活化的小胶质细胞数量高于低分子肝素＋MPTP组。结论：低分子肝素通过抑制小胶质细胞的激活减少MPTP帕金森小鼠多巴胺能神经元的损伤,提示低分子肝素可能有延缓PD进程的作用。     

A randomized clinical trial on the antitumoral effects of low molecular weight heparin in the treatment of esophageal cancer

The current treatment approaches for esophageal cancer are associated with poor survival, and there are ongoing efforts to find new and more effective therapeutic strategies. There are several reports on the antitumoral effects of low-molecular-weight heparins (LMWHs). We have assessed the possible survival benefit of LMWHs in esophageal malignancies. This was a randomized, single-blind, multicenter, Phase II clinical trial on nonmetastatic esophageal cancer candidate for neoadjuvant chemoradiotherapy. Patients were randomly assigned to the chemoradiotherapy-only arm or chemoradiotherapy plus enoxaparin arm using 1:1 allocation. Radiotherapy was delivered in 1.8-Gy daily fractions to a dose of 50.4 Gy in both groups. Paclitaxel 50 mg/m² and carboplatin (AUC 2) were administered weekly, concurrent with radiotherapy. In the intervention group, patients received enoxaparin (40 mg) and chemoradiation daily. 4–6 weeks after treatment, all patients underwent esophagectomy. After a median follow up of 7 months, estimated 1 year disease-free survival (DFS) in the intervention group was 78.9% and was 70% in the control groups ( p = 0.5). Toxicity from the experimental treatment was minimal, and there were no treatment-related deaths. A pathologically complete response in intervention and control group was 64.8% and 62.5%, respectively ( p = 0.9). There was a nonsignificant trend toward improved survival by the addition of enoxaparin to the concurrent chemoradiotherapy regimen. However, 1 y DFS of both groups were high as expected. A longer follow-up and a larger sample size are required.     

Analysis of sulfates on low molecular weight heparin using mass spectrometry: structural characterization of enoxaparin

Introduction: Structural characterization of low molecular weight heparin (LMWH) is critical to meet biosimilarity standards. In this context, the review focuses on structural analysis of labile sulfates attached to the side-groups of LMWH using mass spectrometry. A comprehensive review of this topic will help readers to identify key strategies for tackling the problem related to sulfate loss. At the same time, various mass spectrometry techniques are presented to facilitate compositional analysis of LMWH, mainly enoxaparin.

Areas covered: This review summarizes findings on mass spectrometry application for LMWH, including modulation of sulfates, using enzymology and sample preparation approaches. Furthermore, popular open-source software packages for automated spectral data interpretation are also discussed. Successful use of LC/MS can decipher structural composition for LMWH and help evaluate their sameness or biosimilarity with the innovator molecule. Overall, the literature has been searched using PubMed by typing various search queries such as ‘enoxaparin’, ‘mass spectrometry’, ‘low molecular weight heparin’, ‘structural characterization’, etc.

Expert commentary: This section highlights clinically relevant areas that need improvement to achieve satisfactory commercialization of LMWHs. It also primarily emphasizes the advancements in instrumentation related to mass spectrometry, and discusses building automated software for data interpretation and analysis.     

Protective effect of low molecular weight heparin on oxidative injury and cellular abnormalities in adriamycin-induced cardiac and hepatic toxicity

The aim of the present work is to evaluate the effect of a heparin derivative, low molecular weight heparin (LMWH) on the biochemical changes, tissue peroxidative damage and abnormal antioxidant levels in adriamycin (ADR) induced cardiac and hepatic toxicity. Male Wistar rats (140 +/- 10 g) were divided into four groups: untreated control (group I), ADR group (a single dose intravenous injection of 7.5 mg/kg ADR--group II), LMWH control (300 microg/day per rat s.c. for 1 week--group III) and ADR plus LMWH group (7.5 mg/kg ADR on day 1 of study period followed by LMWH treatment, 300 microg/day per rat commencing on day 8 and continued for a week. At the end of the 2-week experimental period, all animals were terminated. Cellular damage was assessed in terms of serum and tissue lactate dehydrogenase (LDH), aminotransferases and alkaline phosphatase (ALP) activities. Creatine phosphokinase (CPK) was assessed in the serum and heart tissue. The role of LMWH in altering the oxidative stress in ADR-induced toxicity was evaluated on the basis of its influence on cardiac and hepatic lipid peroxidation and antioxidant status (enzymatic and non-enzymatic)--superoxide dismutase (SOD), catalase and glutathione peroxidase (GPx), reduced glutathione (GSH), alpha-tocopherol (Vitamin E) and ascorbate (Vitamin C). LMWH administration to ADR-induced rats prevented the rise in serum and tissue levels of LDH, aminotransferases and ALP, while these parameters were significantly elevated in the ADR group in comparison with the control group. Cardiotoxicity indicated by rise in serum CPK in the ADR group was attenuated by LMWH treatment in group IV. LMWH decreased the cardiac and hepatic lipid peroxidation induced by ADR. Histologic examination revealed that the ADR-induced deleterious changes in the heart and liver tissues were offset by LMWH treatment. Restoration of cellular normalcy accredits LMWH with cytoprotective role in adriamycin-induced cardiac and hepatic toxicity.     

Three-dimensional structure and ligand interactions of the low molecular weight protein tyrosine phosphatase from Campylobacter jejuni

A putative low molecular weight protein tyrosine phosphatase (LMW-PTP) was identified in the genome sequence of the bacterial pathogen, Campylobacter jejuni. This novel gene, cj1258, has sequence homology with a distinctive class of phosphatases widely distributed among prokaryotes and eukaryotes. We report here the solution structure of Cj1258 established by high-resolution NMR spectroscopy using NOE-derived distance restraints, hydrogen bond data, and torsion angle restraints. The three-dimensional structure consists of a central four-stranded parallel beta-sheet flanked by five alpha-helices, revealing an overall structural topology similar to those of the eukaryotic LMW-PTPs, such as human HCPTP-A, bovine BPTP, and Saccharomyces cerevisiae LTP1, and to those of the bacterial LMW-PTPs MPtpA from Mycobacterium tuberculosis and YwlE from Bacillus subtilis. The active site of the enzyme is flexible in solution and readily adapts to the binding of ligands, such as the phosphate ion. An NMR-based screen was carried out against a number of potential inhibitors and activators, including phosphonomethylphenylalanine, derivatives of the cinnamic acid, 2-hydroxy-5-nitrobenzaldehyde, cinnamaldehyde, adenine, and hypoxanthine. Despite its bacterial origin, both the three-dimensional structure and ligand-binding properties of Cj1258 suggest that this novel phosphatase may have functional roles close to those of eukaryotic and mammalian tyrosine phosphatases. The three-dimensional structure along with mapping of small-molecule binding will be discussed in the context of developing high-affinity inhibitors of this novel LMW-PTP.     

Effects of heparin and derivatives on podocytes: An in vitro functional and morphological evaluation

Unfractionated heparin (UFH) and low molecular heparin derivatives (LMWH) display numerous biological properties in addition to their anticoagulant effects. However, due to the physicochemical heterogeneity of these drugs, a better understanding concerning their effects on human cells is clearly needed. Considering that heparins are mainly excreted by the kidney, we focused our attention on the effect of UFH and LMWH on human podocytes by functional and morphological/phenotypic in vitro analyses. We demonstrated that these products differentially modulate the permeability of podocyte monolayer to albumin. The functional perturbations observed were correlated to significant cellular morphological and cytoskeletal changes, as well as a decrease in the expression of proteins involved in podocyte adherence to the extracellular matrix or intercellular interactions. This point confirms that UFH and the different LMWHs exert specific effects on podocyte permeability and underlines the need of in vitro tests to evaluate new biological nonanticoagulant properties of LMWH.     

Control of antibody high and low molecular weight species by depth filtration-based cell culture harvesting

Depth filtration-based harvesting is widely used in mAb manufacturing to remove cell and process-related impurities. However, it has not been studied on control of product-related impurities, which are very critical for product quality. In this article, we studied the interactions of depth filter with high and low molecular weight species (HMWs and LMWs) for their direct removal from cell culture. The process parameters (filter, loading, temperature, and flux) were evaluated for adsorption of HMWs and LMWs by depth filters. The adsorption is significantly dependent on filter media and loading capacity and is mainly on the basis of hydrophobic interaction during harvesting. The HMW and LMW species were characterized as HMW1, HMW2, LMW1, and LMW2. The increasing binding from LMW2 to LMW1, HMW1, and HMW2 is correlated with their increasing hydrophobicity score. Adsorption using enriched HMW sample demonstrated similar total protein binding capacity (36–40 g/m²) between depth filters D0HC and X0HC. However, X0HC has stronger HMW binding than D0HC (71% vs 43% of bound protein), indicating more hydrophobic interaction in X0HC. HMW2 DBC on X0HC reached 12 g/m², similar to protein binding on hydrophobic interaction membrane adsorbers. Further study showed LMW can induce HMW formation. This study provides a critical understanding of HMW and LMW interaction with depth filters. The strategy of HMW and LMW control by depth filtration-based harvesting was implemented successfully in mAb manufacturing.     

猴头菌子实体小分子提取物的分离与体外抑制幽门螺旋杆菌的分析

本研究以甲硝唑为阳性对照,利用HPD-100大孔树脂和95%乙醇将猴头菌子实体中小分子活性物质进行富集,得到乙醇制备液（MREEs）;然后对乙醇制备液分别使用石油醚（60-90℃）和氯仿进行多次萃取,得到石油醚萃取物（A1、A2）和氯仿萃取物（B）,并进行GC-MS测定;对MREEs和A1、A2、B分别进行药敏试验,同时对5种幽门螺旋杆菌进行最低抑菌浓度测定。结果表明,使用大孔树脂得到的MREEs有较好的抑菌活性,得到的A1、A2和B对幽门螺旋杆菌的抑菌率均高于40.0%,其中石油醚萃取物A1在Helicobacter pylori SSI中的抑菌率甚至高达62.9%;A1、A2和B使用GC-MS测定出的主要成分分别是邻苯二甲酸二丁酯（A1,4.53%和A2,6.93%）和棕榈酸2.87%,但仍有大量成分没有被测出。另外,在最低抑菌浓度试验中,A1相应组分对Helicobacter pylori W₂504、Helicobacter pylori 9和Helicobacter pylori ATCC 43504的最低抑菌浓度都为0.25mg/mL,A2对Helicobacter pylori 78的最低抑菌浓度仅为0.25mg/mL,而B对Helicobacter pylori W₂504、Helicobacter pylori 9的最低抑菌浓度均仅为0.125mg/mL,说明通过石油醚和氯仿萃取得到的猴头菌子实体提取物对幽门螺旋杆菌具有潜在的抑菌作用。     

Effects of low molecular weight soybean peptide on mRNA and protein expression levels of differentiation markers in normal human epidermal keratinocytes

Low molecular weight soybean peptide (LSP) was applied to normal human epidermal keratinocytes, and the results showed a significant increase in the gene expression levels of involucrin, transglutaminase, and profilaggrin. Filaggrin protein levels were also significantly higher. It is possible that LSP has an epidermal cell differentiation-promoting effect and may be able to regulate metabolism of the epidermis.     

Production of heparin oligosaccharides by fusion protein of MBP–heparinase I and the enzyme thermostability

Enzymatic depolymerization of heparin to produce LMWH, a useful anticoagulant, has attracted much attention due to its mild reaction conditions and high selectivity. In this paper, we examined the feasibility of heparin depolymerization by heparinase I fused with maltose-binding protein (MBP) (MBP–HepA), which was functionally expressed in recombinant Escherichia coli with high activity. Our results showed that MBP–HepA degraded heparin effectively and the LMWHs with the weight average molecular weight (M_w) less than 3000 Da and narrow polydispersity were formed by controlling the reaction time. Thermostability of the fused enzyme was studied and possible mechanism for heat inactivation was proposed. The results showed that the MBP–HepA was relatively unstable and the enzyme inactivation was dependent on a third-order kinetics at the high temperature below 45 °C.     

低分子量有机酸对红壤无机态磷转化及酸度的影响

以鄂南、赣北两红壤样品为材料,加入不同有机酸并经室温培养后,测定不同P组分、pH及活性Al含量的变化。结果表明,供试有机酸均使土壤Ca2－P含量增高,增幅大小依次为柠檬酸＞苹果酸＞琥珀酸＞乙酸;2种土壤的Ca8－P和Ca10－P含量无明显变化规律,Fe-P、Al-P和O－P含量有所下降,除乙酸处理的土壤pH值无显著变化外,其它有机酸的加入使pH下降0．65－1．96;有机酸引起活性Al量增多,除乙酸处理的变化较小外,其它有机酸或混合物的加入使土壤中0．02mol.L^-1CaCl2提取Al增加4．7－50．3倍,1mol.L^-1提取Al增加4．0－67．3倍。可见,有机酸具有双重作用,既增加P的有效性,又增加土壤酸度和Al毒。     

Changes in low molecular weight carbohydrates composition and chitin throughout the cultivation stages ofPleurotus ostreatus

Changes in contents of soluble low molecular weight carbohydrates and chitin in a sawdust-rice bran medium during mycelial growth ofPleurotus ostreatus in bottle cultivation were examined in relation to fruit-body yield of nine stocks. Glucose, mannitol, inositol, sucrose, and trehalose were detected in cultures after mycelial spreading. No significant correlation was observed between contents of soluble low molecular weight carbohydrate during mycelial growth and the fruit-body yield. Negative correlation was found between trehalose content in post-harvest cultures and the fruit-body yield. Chitin content in cultures decreased in the fruiting stage. Positive correlation was detected between chitin content of fruit-bodies and the decrement of chitin in post-harvest culture caused by fruit-body growth.     

Analyzing the catalytic mechanism of MPtpA: a low molecular weight protein tyrosine phosphatase from Mycobacterium tuberculosis through site-directed mutagenesis

Mycobacterium tuberculosis adopts various measures to escape from the hostile environment of the host cells. A low molecular weight protein tyrosine phosphatase (LMWPTPase) MPtpA was found to be active in virulent mycobacterial forms during the phagocytosis process. To ascertain the importance of conserved residues Cys11, Arg17, and Asp126 in the catalytic mechanism of MPtpA, site-directed mutagenesis was performed, namely C11S, R17A, D126A, and D126N. Kinetic characterization of wild-type and the mutant MPtpAs using para-nitrophenyl phosphate revealed the reaction mechanism followed by this LMWPTPase and it is similar to the other PTPases. All the LMWPTPases have a common signature motif, 'C(X)(5)R(S/T)' and an Asp as the general acid residue and the mechanism followed by MPtpA can be aptly attributed to other LMWPTPases as well, considering the similar three-dimensional conformation. We have shown that the mutations caused major changes in the chemical environment surrounding the mutated residues and resulted in the decrease of catalytic activity significantly. Inhibition kinetics was performed with phosphate analogues: sodium molybdate, sodium orthovanadate, and sodium tungstate.