Differences in β-strand Populations of Monomeric Aβ40 and Aβ42

Using homonuclear ¹H NOESY spectra, with chemical shifts, ³J_H^N_H^α scalar couplings, residual dipolar couplings, and ¹H-¹⁵N NOEs, we have optimized and validated the conformational ensembles of the amyloid-β 1–40 (Aβ40) and amyloid-β 1–42 (Aβ42) peptides generated by molecular dynamics simulations. We find that both peptides have a diverse set of secondary structure elements including turns, helices, and antiparallel and parallel β-strands. The most significant difference in the structural ensembles of the two peptides is the type of β-hairpins and β-strands they populate. We find that Aβ42 forms a major antiparallel β-hairpin involving the central hydrophobic cluster residues (16–21) with residues 29–36, compatible with known amyloid fibril forming regions, whereas Aβ40 forms an alternative but less populated antiparallel β-hairpin between the central hydrophobic cluster and residues 9–13, that sometimes forms a β-sheet by association with residues 35–37. Furthermore, we show that the two additional C-terminal residues of Aβ42, in particular Ile-41, directly control the differences in the β-strand content found between the Aβ40 and Aβ42 structural ensembles. Integrating the experimental and theoretical evidence accumulated over the last decade, it is now possible to present monomeric structural ensembles of Aβ40 and Aβ42 consistent with available information that produce a plausible molecular basis for why Aβ42 exhibits greater fibrillization rates than Aβ40.     

Highly conserved progesterone 5β-reductase genes (P5βR) from 5β-cardenolide-free and 5β-cardenolide-producing angiosperms

Most cardenolides used in the therapy of cardiac insufficiency are 5β-configured and thus the stereo-specific reduction of the Δ^4,5-double bond of a steroid precursor is a crucial step in their biosynthesis. This step is thought to be catalysed by progesterone 5β-reductases. We report here on the isolation of 11 progesterone 5β-reductase (P5βR) orthologues from 5β-cardenolide-free and 5β-cardenolide-producing plant species belonging to five different angiosperm orders (Brassicales, Gentianales, Lamiales, Malvales and Solanales). Amino acid sequences of the P5βR described here were highly conserved. They all contain certain motifs qualifying them as members of a class of stereo-selective enone reductases capable of reducing activated CC double bonds by a 1,4-addition mechanism. Protein modeling revealed seven conserved amino acids in the substrate-binding/catalytic site of these enzymes which are all supposed to exhibit low substrate specificity. Eight P5βR genes isolated were expressed in Escherichia coli. Recombinant enzymes reduced progesterone stereo-specifically to 5β-pregane-3,20-dione. The progesterone 5β-reductases from Digitalis canariensis and Arabidopsis thaliana reduced activated CC double bonds of molecules much smaller than progesterone. The specific role of progesterone 5β-reductases of P5βRs in cardenolide metabolism is challenged because this class of enone reductases is widespread in higher plants, and they accept a wide range of enone substrates.     

β-Thalassaemia/haemoglobin E tissue ferritins

Summary Ferritins from liver and spleen of both-thalassaemia/haemoglobin E (HbE) and non-thalassaemic patients were purified by heating a methanol-treated homogenate, followed by molecular exclusion chromatography. The concentrations of ferritins in the-thalassaemia/HbE liver and spleen were calculated as 3.8 and 2.0 mg/g wet tissue. The-thalassaemia/HbE ferritin iron/protein ratios were higher than those of normal ferritins. On PAGE, all ferritins gave a single major monomeric band with only very small differences in their mobility. Ferritins from thalassaemic patients also possessed bands corresponding to oligomers. On SDS/PAGE, all ferritins were resolved into two major subunits: H and L with L subunit predominating. While the isoferritin profiles of ferritins from-thalassaemia/HbE liver and spleen were similar to each other and to those of normal liver and spleen, some extra bands were present in the acidic region. The microstructure of these pathological ferritins appears to result, to a large degree, from the particular nature and amount of iron loading present.Abbreviations PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulphate     

Wnt/β-catenin signaling and disease

The WNT signal transduction cascade controls myriad biological phenomena throughout development and adult life of all animals. In parallel, aberrant Wnt signaling underlies a wide range of pathologies in humans. In this Review, we provide an update of the core Wnt/β-catenin signaling pathway, discuss how its various components contribute to disease, and pose outstanding questions to be addressed in the future.     

Synthesis of 4-hydroxy-β3-homoprolines and their insertion in α/β/α-tripeptides

The stereoselective syntheses of 2-cyclopropyl- and (2S)-2-hydroxymethyl-(3R,4S)-4-hydroxy-β³-homoproline are described. The reported amino acids were constructed through 1,3-dipolar cycloaddition of strained alkylidenecyclopropanes with enantiopure pyrroline N-oxides derived from malic acid followed by thermal rearrangement of the adducts in the presence of trifluoroacetic acid. The two-step sequence afforded the homoprolines suitably protected to be directly used as building blocks in peptidomimetic synthesis as proved by the synthesis of the two model mixed α/β/α tripeptides Phe-β³-HPro-Val.     

β-Diketones in Rhododendron waxes

Chromatographic, mass spectrometric and spectroscopic evidence has been obtained for four β-diketones occurring in the leaf waxes of some members of     

Dynamics of TGF-β/Smad signaling

The physiological responses to TGF-β stimulation are diverse and vary amongst different cell types and environmental conditions. Even though the principal molecular components of the canonical and the non-canonical TGF-β signaling pathways have been largely identified, the mechanism that underlies the well-established context dependent physiological responses remains a mystery. Understanding how the components of TGF-β signaling function as a system and how this system functions in the context of the global cellular regulatory network requires a more quantitative and systematic approach. Here, we review the recent progress in understanding TGF-β biology using integration of mathematical modeling and quantitative experimental analysis. These studies reveal many interesting dynamics of TGF-β signaling and how cells quantitatively decode variable doses of TGF-β stimulation.     

C-X-C motif chemokine receptor 4 aggravates renal fibrosis through activating JAK/STAT/GSK3β/β-catenin pathway

Chronic kidney disease (CKD) has a high prevalence worldwide. Renal fibrosis is the common pathological feature in various types of CKD. However, the underlying mechanisms are not determined. Here, we adopted different CKD mouse models and cultured human proximal tubular cell line (HKC-8) to examine the expression of C-X-C motif chemokine receptor 4 (CXCR4) and β-catenin signalling, as well as their relationship in renal fibrosis. In CKD mice and humans with a variety of nephropathies, CXCR4 was dramatically up-regulated in tubules, with a concomitant activation of β-catenin. CXCR4 expression level was positively correlated with the expression of β-catenin target MMP-7. AMD3100, a CXCR4 receptor blocker, and gene knockdown of CXCR4 significantly inhibited the activation of JAK/STAT and β-catenin signalling, protected against tubular injury and renal fibrosis. CXCR4-induced renal fibrosis was inhibited by treatment with ICG-001, an inhibitor of β-catenin signalling. In HKC-8 cells, overexpression of CXCR4 induced activation of β-catenin and deteriorated cell injury. These effects were inhibited by ICG-001. Stromal cell–derived factor (SDF)-1α, the ligand of CXCR4, stimulated the activation of JAK2/STAT3 and JAK3/STAT6 signalling in HKC-8 cells. Overexpression of STAT3 or STAT6 decreased the abundance of GSK3β mRNA. Silencing of STAT3 or STAT6 significantly blocked SDF-1α-induced activation of β-catenin and fibrotic lesions. These results uncover a novel mechanistic linkage between CXCR4 and β-catenin activation in renal fibrosis in association with JAK/STAT/GSK3β pathway. Our studies also suggest that targeted inhibition of CXCR4 may provide better therapeutic effects on renal fibrosis by inhibiting multiple downstream signalling cascades.     

IFN-γ/STAT通路抑制TGF-β/SMAD信号转导

ＴＧＦ－β和ＩＦＮ－γ对各种细胞功能有相反的作用,但是此拮抗作用的基础不清楚。ＴＧＦ－β信号转导是通过受体丝氨酸激酶磷酸化并激活转录因子Ｓｍａｄ２和Ｓｍａｄ３实现的,而ＩＦＮ－γ受体及其结合的蛋白质酪氨酸激酶Ｊａｋ１能介导Ｓｔａｔ１的磷酸化和活化。最...     

A natural propenoic acid derivative activates peroxisome proliferator-activated receptor-β/δ (PPARβ/δ)

AimsPrevious studies showed that natural prenyloxyphenylpropanoid derivatives have potent biological properties in vivo. Given the structural similarities between these compounds and known peroxisome proliferator-activated receptor (PPAR) agonists, the present study examined the hypothesis that propenoic acid derivatives activate PPARs.Main methodsChimeric reporter assays were performed to identify propenoic acid derivates that could activate PPARs. Quantitative polymerase chain reaction (qPCR) analysis of wild-type and Pparβ/δ-null mouse primary keratinocytes was performed to determine if a test compound could specifically activate PPARβ/δ. A human epithelial carcinoma cell line and primary mouse keratinocytes were used to determine the effect of the compound on cell proliferation.Key findingsThree of the propenoic acid derivatives activated PPARs, with the greatest efficacy being observed with prenyloxycinnamic acid derivatives 4′-geranyloxyferulic acid (compound 1) for PPARβ/δ. Compound 1 increased expression of a known PPARβ/δ target gene through a mechanism that requires PPARβ/δ. Inhibition of cell proliferation by compound 1 was found in a human epithelial carcinoma cell line.SignificanceResults from these studies demonstrate that compound 1 can activate PPARβ/δ and inhibit cell proliferation of a human skin cancer cell line, suggesting that the biological effects of 4′-geranyloxyferulic acid may be mediated in part by activating this PPAR isoform.     

Hippo/YAP和Wnt/β-catenin通路的对话

Hippo/YAP通路和Wnt/β-catenin通路是在细胞的生长分化、组织器官形成以及成体干细胞的维持等方面都起着重要作用的两条信号通路。在哺乳动物细胞中,Wnt/β-catenin通路通过一系列胞质蛋白的相互作用,使β-catenin蛋白在胞质内累积,进而入核传递生长刺激信号。Hippo/YAP通路通过激酶级联反应磷酸化YAP/TAZ,使其滞留在细胞质中,抑制了YAP/TAZ的转录活性,从而限制细胞的生长增殖,诱导细胞凋亡。这两条通路的异常调控往往会导致肿瘤的发生。近年来越来越多的研究证实,Hippo/YAP和Wnt/β-catenin在很多方面相互影响,共同参与组织生长和胚胎发育的调控。研究这两个通路在肿瘤发生过程中的转导和调控以及它们相互作用的机制,有助于为肿瘤的防治提供新的思路与策略。文章对这两条通路的协同作用及其分子机制进行了综述。     

Prednisolone induces osteocytes apoptosis by promoting Notum expression and inhibiting PI3K/AKT/GSK3β/β-catenin pathway

Journal of Molecular Histology - The apoptosis of mature osteocytes is the main factor causing damage to the microstructure of cortical bone in glucocorticoid-induced osteoporosis (GIOP). Our...     

Wnt/β-catenin signaling in hepatic organogenesis

Wnt/β-catenin signaling has come to the forefront of liver biology in recent years. This pathway regulates key pathophysiological events inherent to the liver including development, regeneration, and cancer, by dictating several biological processes such as proliferation, apoptosis, differentiation, adhesion, zonation and metabolism in various cells of the liver. This review will examine the studies that have uncovered the relevant roles of Wnt/β-catenin signaling during the process of liver development. We will discuss the potential roles of Wnt/β-catenin signaling during the phases of development, including competence, hepatic induction, expansion, and morphogenesis. In addition, we will discuss the role of negative and positive regulation of this pathway and how the temporal expression of Wnt/β-catenin can direct key processes during hepatic development. We will also identify some of the major deficits in the current understanding of the role of Wnt/β-catenin signaling in liver development in order to provide a perspective for future studies. Thus, this review will provide a contextual overview of the role of Wnt/β-catenin signaling during hepatic organogenesis.     

TGF-β/Smads信号转导通路的研究进展

转化生长因子（TGF）-β超家族成员的重要生物学功能正日益引起人们的重视。受体介导的胞内信号转导研究近年有较大进展,特别是Smads蛋白介导的信号转导通路为阐明TGF-β超家族的作用机理提供了一条重要线索。TGF-β/Smads信号的转导受到机体严密的调控,并与其他信号通路存在着广泛的交叉对话效应。综述了对TGF-β/Smads信号转导通路的机制、调控,及其在维持机体正常生理功能和疾病发生中的作用的研究进展。     

Wnt/β-catenin信号通路与肝癌

肝细胞癌是常见的恶性肿瘤,其发病机制尚未完全明确。Wnt信号通路与人体内多种病理生理过程相关,其中肝癌的发生、发展可能与经典的Wnt/β-catenin信号通路密切相关。Wnt/β-catein信号通路通过表达癌症相关基因、激活肝星状细胞、调控肝干细胞行为、促进肝癌细胞侵袭转移等方式调控肝癌的发生、发展。Wnt/β-catein信号通路在肝癌发生、发展中的作用有望为肝癌研究提供新的思路。     

TGF-β/Smad与Wnt/β-catenin在博莱霉素致大鼠肺纤维化中的表达及相互作用

目的 观察TGF-β/Smad 和Wnt/β-catenin 通路相关基因在肺纤维化大鼠模型肺组织中的表达,探讨两条通路对肺纤维化的影响及其相互作用.方法 取Wistar 大鼠36 只,随机分为正常对照组和肺纤维化模型组,每组18 只.采用气管内注入博来霉素（BLM）建立Wistar 大鼠肺纤维化模型,每组分别于第14、21 和28 天处死大鼠各6 只;取肺组织称重,测定肺组织中HYP、IL-1β水平,观察肺组织Col-I、IL-1β、TGF-β1、Smad3、α-SMA、Wnt1、β-catenin、LEF-1 mRNA 的表达,并进行HE 染色和Masson 胶原染色.结果 （1）与正常对照组比,造模后14～28 d 大鼠肺指数均明显升高（P ＜0.01）;肺组织HE 染色呈现明显的肺纤维化病理改变,Masson 染色结果可见造模后14 ～28 d 肺间质蓝色胶原呈渐进性增加.（2）造模后第14 天,肺组织IL-1β含量、IL-1βmRNA 相对含量均显著升高（P ＜0.01）,随后逐渐降低,至造模后第28 天IL-1β表达量接近正常水平（P ＞0.05）.（3）造模后14 ～28d大鼠肺组织HYP 含量、Col-I mRNA 相对表达量均明显升高（P ＜0.01）.（4）与正常组相比,模型组中TGFβ1、Smad3、α-SMA、Wnt1、β-Catenin、LEF-1 mRNA 表达显著增加（P ＜0.01）,且TGFβ1、Smad3 mRNA 分别与Wnt1、LEF-1、β-catenin mRNA 的表达呈显著正相关.结论 TGF-β/Smad 和Wnt/β-catenin 通路相关基因在博来霉素致大鼠肺纤维化中表达上调,两条通路对肺纤维化可能有促进作用且它们间可能存在一定联系.