Cooperative Interactions of the Oligodeoxyribonucleotides on the Complementary Template. The Influence of Chemical Groups and Mismatched Nucleotides at the 5′- and 3′-ends of Oligonucleotides on the Parameters of Cooperativity

Abstract

Parameters of cooperative interactions of two or three oligodeoxyribonucleotides or their derivatives bound with the adjacent sites of the complementary template were measured using method of “complementary addressed modification titration” (CAMT). Complementary template (target) were modified with the reactive oligonucleotide derivatives (reagents) bearing covalently attached alkylating 4-[N-(2-chloroethyl)-N-methylaminojbenzylamino- group (C1RCH₂NH)- at 5′-terminal phosphate. The targets had only one binding site for the reagent and either no (T10), or one (T'22 and T22) or two sites (T26) for the oligonucleotides (effectors) cooperatively bound with the adjacent sites on the template. Both unmodified oligonucleotides E₁, E₂ and their derivatives E₁ ^phn, E₂ ^phn bearing N- (2-hydroxyethyl)-phenazinium residues Phn- both at 5′- and 3′- ends covalently linked via ethylenediamine linker were used as effectors. Effectors E₁ and E₂ (E₁ ^Phn and E₂ ^Phn) bind, respectively, upstream or downstream from the reagent. Hexameric (X6) or octameric (X8 or X8^m) reagents were used for the target modification. The reagent X8^m formed one TT-mismatch with the target at the end opposite to location of the reactive moiety. The cooperativity parameter values characterizing the mutual interactions between the reagents X6, X8, X8^m and effectors E₁, E₂, E₁ ^phn, E₂ ^Phn have been found as the ratio of the association constants of the reagents in the presence of effectors. The association constants were calculated from the dependencies of the target modification extent on initial concentrations of the reagents. The use of T26 existing both in linear and hairpin conformations permitted us to estimate additionally the role of indirect cooperativity originating from the induction of the target conformational change by the effectors. The following conclusions were done from the quantitative results. The efficiency of direct cooperativity is independent on the length of oligonucleotide for the same nature of the contact. The cooperativity parameter increases by factor about 3 in the presence of Phn-group covalently attached to oligonucleotides and located at the junctions. The presence of either alkylating group CIRCH₂NH- or TT-mismatch at the junctions eliminates cooperative interaction between the bases. In the same time sufficiently effective cooperative interaction takes place in the case of simultaneous presence of both Phn- and either CIRCH₂NH- group or TT-mismatch at the junction.     

Studies on the structural stability of rabbit prion probed by molecular dynamics simulations of its wild-type and mutants

Prion diseases are invariably fatal and highly infectious neurodegenerative diseases that affect humans and animals. Rabbits are the only mammalian species reported to be resistant to infection from prion diseases isolated from other species (Vorberg et al., 2003). Fortunately, the NMR structure of rabbit prion (124-228) (PDB entry 2FJ3), the NMR structure of rabbit prion protein mutation S173N (PDB entry 2JOH) and the NMR structure of rabbit prion protein mutation I214V (PDB entry 2JOM) were released recently. This paper studies these NMR structures by molecular dynamics simulations. Simulation results confirm the structural stability of wild-type rabbit prion, and show that the salt bridge between D177 and R163 greatly contributes to the structural stability of rabbit prion protein.     

Comparison studies of the structural stability of rabbit prion protein with human and mouse prion proteins

Background: Prion diseases are fatal and infectious neurodegenerative diseases affecting humans and animals. Rabbits are one of the few mammalian species reported to be resistant to infection from prion diseases isolated from other species (I. Vorberg et al., Journal of Virology 77 (3) (2003) 2003-2009). Thus the study of rabbit prion protein structure to obtain insight into the immunity of rabbits to prion diseases is very important.Findings: The paper is a straight forward molecular dynamics simulation study of wild-type rabbit prion protein (monomer cellular form) which apparently resists the formation of the scrapie form. The comparison analyses with human and mouse prion proteins done so far show that the rabbit prion protein has a stable structure. The main point is that the enhanced stability of the C-terminal ordered region especially helix 2 through the D177-R163 salt-bridge formation renders the rabbit prion protein stable. The salt bridge D201-R155 linking helixes 3 and 1 also contributes to the structural stability of rabbit prion protein. The hydrogen bond H186-R155 partially contributes to the structural stability of rabbit prion protein.Conclusions: Rabbit prion protein was found to own the structural stability, the salt bridges D177-R163, D201-R155 greatly contribute and the hydrogen bond H186-R155 partially contributes to this structural stability. The comparison of the structural stability of prion proteins from the three species rabbit, human and mouse showed that the human and mouse prion protein structures were not affected by the removing these two salt bridges. Dima et al. (Biophysical Journal 83 (2002) 1268-1280 and Proceedings of the National Academy of Sciences of the United States of America 101 (2004) 15335-15340) also confirmed this point and pointed out that “correlated mutations that reduce the frustration in the second half of helix 2 in mammalian prion proteins could inhibit the formation of PrP^Sc”.     

Long-range Electrostatic Interactions in Molecular Dynamics: An Endothelin-1 Case Study

Abstract

An extensive conformational search in explicit solvent was performed in order to compare the influence of different long-range electrostatic interaction treatments in molecular dynamics. The short peptide endothelin-1 was selected as the subject of molecular dynamics studies that started from both X-ray and NMR obtained structures. Electrostatic interactions were treated using two of the most common methods—residue-based cutoff and particle mesh Ewald (PME). Analyses of free energy calculations (MM-PBSA method used), secondary structure elements and hydrogen bonds were performed, and there suggested that there is no unambiguous conclusion about which of the two methods of long-range electrostatics treatment should be used in MD simulations in this case. The most reliable data was provided by a trajectory that started with the NMR structure and used the cutoff method to treat electrostatic interactions. This leads to a recommendation that the choice of electrostatics treatment should be made carefully and not automatically by choosing the PME method simply because it is the most widely used.     

Iatrogenic and sporadic Creutzfeldt-Jakob disease in 2 sisters without mutation in the prion protein gene

ABSTRACT

Human genetic prion diseases have invariably been linked to alterations of the prion protein (PrP) gene PRNP. Two sisters died from probable Creutzfeldt-Jakob disease (CJD) in Switzerland within 14 y. At autopsy, both patients had typical spongiform change in their brains accompanied by punctuate deposits of PrP. Biochemical analyses demonstrated proteinase K-resistant PrP. Sequencing of PRNP showed 2 wild-type alleles in both siblings. Retrospectively, clinical data revealed a history of dural transplantation in the initially deceased sister, compatible with a diagnosis of iatrogenic CJD. Clinical and familial histories provided no evidence for potential horizontal transmission. This observation of 2 siblings suffering from CJD without mutations in the PRNP gene suggests potential involvement of non-PRNP genes in prion disease etiology.     

Nucleosome Positioning by Sequence,State of the Art and Apparent Finale

Abstract

All major suggestions about the nucleosome positioning sequence pattern(s) are overviewed. Two basic binary periodical patterns are well established: in purine/pyrimidine alphabet—YRRRRRYYYYYR and in strong/weak alphabet-SWWWWWSSSSSW. Their merger in four-letter alphabet sequence coincides with first ever complete matrix of nucleosome DNA bendability derived from very large database of nucleosome DNA sequences. Its simplified linear form is CGGAAATTTCCG. Several independent ways of derivation of the same pattern are described. It appears that the pattern represents an ultimate solution of long-standing problem of nucleosome positioning, and provides simple means for nucleosome mapping on sequences with single-base resolution.     

Integrity of H1 helix in prion protein revealed by molecular dynamic simulations to be especially vulnerable to changes in the relative orientation of H1 and its S1 flank

In the template-assistance model, normal prion protein (PrPC), the pathogenic cause of prion diseases such as Creutzfeldt-Jakob in human, bovine spongiform encephalopathy in cow, and scrapie in sheep, converts to infectious prion (PrPSc) through an autocatalytic process triggered by a transient interaction between PrPC and PrPSc. Conventional studies suggest the S1-H1-S2 region in PrPC to be the template of S1-S2 β-sheet in PrPSc, and the conformational conversion of PrPC into PrPSc may involve an unfolding of H1 in PrPC and its refolding into the β-sheet in PrPSc. Here we conduct a series of simulation experiments to test the idea of transient interaction of the template-assistance model. We find that the integrity of H1 in PrPC is vulnerable to a transient interaction that alters the native dihedral angles at residue Asn¹⁴³, which connects the S1 flank to H1, but not to interactions that alter the internal structure of the S1 flank, nor to those that alter the relative orientation between H1 and the S2 flank.     

Modeling the interplay of glycine protonation and multiple histidine binding of copper in the prion protein octarepeat subdomains

The octarepeat region of the prion protein can bind Cu²⁺ ions up to full occupancy (one ion per octarepeat) at neutral pH. While crystallographic data show that the HGGG octarepeat subdomain is the basic binding unit, multiple histidine coordination at lower Cu occupancy has been reported by X-ray absorption spectroscopy, EPR, and potentiometric experiments. In this paper we investigate, with first principles Car–Parrinello simulations, the first step for the formation of the Cu low-level binding mode, where four histidine side chains are coordinated to the same Cu²⁺ ion. This step involves the further binding of a second histidine to an already HGGG domain bonded Cu²⁺ ion. The influence of the pH on the ability of Cu to bind two histidine side chains was taken into account by simulating different protonation states of the amide N atoms of the two glycines lying nearest to the first histidine. Multiple histidine coordination is also seen to occur when glycine deprotonation occurs and the presence of the extra histidine stabilizes the Cu–peptide complex. Though the stabilization effect slightly decreases with the number of deprotonated glycines (reaching a minimum when both N atoms of the two nearest glycines are available as Cu ligands), the system is still capable of binding the second histidine in a 4N tetrahedral (though slightly distorted) coordination, whose energy is very near to that of the crystallographic square-planar 3N1O coordination. This result suggests that at low metal concentration the reorganization energy associated with Cu(II)/Cu(I) reduction is small also at pH ~ 7, when glycines are deprotonated. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.

运动神经元生存蛋白SMN与Sm蛋白的结合作用

脊髓性肌萎缩症（spinal muscular atrophy,SMA）是一类与运动神经元存活基因（survival of motor neurons gene,SMN gene）突变有关的神经系统变性疾病,而SMN基因的转录产物即为SMN蛋白（survival of motorneurons protein,SMN protein）。SMN蛋白与多种蛋白结合后发挥作用,如SMN-Sm蛋白的相互作用在富含尿嘧啶的小核核糖核蛋白体（uridine—richsmallribonucleo—proteins,UsnRNPs）转运装配中有重要意义。SMN蛋白是通过其Tudor结构域与剪接体sm蛋白的二甲基化修饰的富含精氨酸一氨基乙酸域（ar—ginineandglycine—rich,RG）结合。     

Molecular dynamics studies on the NMR structures of rabbit prion protein wild type and mutants: surface electrostatic charge distributions

Prion diseases are invariably fatal and highly infectious neurodegenerative diseases that affect a wide variety of mammalian species such as sheep and goats, cattle, deer and elk, and humans. But for rabbits, studies have shown that they have a low susceptibility to be infected by prion diseases. This paper does molecular dynamics (MD) studies of rabbit NMR structures (of the wild type and its two mutants of two surface residues), in order to understand the specific mechanism of rabbit prion proteins (RaPrP^C). Protein surface electrostatic charge distributions are specially focused to analyze the MD trajectories. This paper can conclude that surface electrostatic charge distributions indeed contribute to the structural stability of wild-type RaPrP^C; this may be useful for the medicinal treatment of prion diseases.     

The N-terminus of PrP is responsible for interacting with tubulin and fCJD related PrP mutants possess stronger inhibitive effect on microtubule assembly in vitro

Microtubule dynamics is essential for many vital cellular processes such as in intracellular transport, metabolism, and cell division. Some evidences demonstrate that PrP may associate with microtubular cytoskeleton and its major component, tubulin. In the present study, the molecular interaction between PrP and tubulin was confirmed using pull-down assays, immunoprecipitation and ELISA. The interacting regions within PrP with tubulin were mapped in the N-terminus of PrP spanning residues 23-50 and 51-91. PrP octapeptide repeats are critical for the binding activity with tubulin, that the binding activity of PrP with tubulin became stronger along with the number of the octapeptide repeats increased. Microtubule assembly assays, sedimental tests and transmission electron microscopy demonstrated that the full-length PrP (aa 23-231) obviously inhibited the microtubule polymerization processes in vitro, whereas the N- (aa 23-91) and C- (aa 91-231) terminal peptides of PrP did not affect microtubule polymerization. Moreover, the familial Cruetzfeldt Jacob disease (fCJD) related PrP mutants with inserted or deleted octapeptide repeats showed much stronger inhibitive capacities on the microtubule dynamics in vitro than wild-type PrP. Our data highlight a potential role of PrP in regulating the microtubule dynamics in neurons.     

Contribution of a putative salt bridge and backbone dynamics in the structural instability of human prion protein upon R208H mutation

Molecular dynamics simulation method is used to assess the contribution of a disease-associated salt bridge in the early stages of the conformational rearrangement of human prion protein upon Arg²⁰⁸→His mutation, which causes Creutzfeldt-Jakob disease. Previous investigations have suggested that the breakage of this putative salt bridge (D¹⁴⁴/E¹⁴⁶ ↔ Arg²⁰⁸) between helix 1 and helix 3 is responsible for such a mutation-driven process. So far, no experimental data has been reported in order to distinguish the contribution of this single salt bridge in the initial steps of amyloid formation. Consequently, we decided to investigate the role of this salt bridge in early conformational rearrangements. To remove the salt bridge without perturbations in the backbone structure, the neutralized states of the involved residues were used. Three 10-ns molecular dynamics simulations on three initial structures have been performed. The results revealed that the early stages of the conformational rearrangements, against common belief, are mainly associated with the mutation-induced global changes in the backbone dynamics but not with the breaking of the salt bridge.     

Prion-like proteins and their computational identification in proteomes

Introduction: The aberrant or misfolded forms of the prion protein have been described as the causative agents of rare transmissible spongiform encephalopathies. In addition, proteins associated with frequently occurring neurodegenerative disorders, such as Alzheimer’s and Parkinson’s, are shown to share prion-like properties and to spread the disease in the brain.

Areas covered: Interest in the prion phenomenon has crystallized in a series of computational methods aimed at uncovering prion-like proteins at the proteome level. These programs rely on the identification of sequence signatures similar to those of yeast prions, whose structural conversion is driven by specific domains enriched in glutamine/asparagine residues. A myriad of prion-like candidates, similar to those in yeast, are predicted to exist in organisms across all kingdoms of life. We review here the role of prions, prionoids and prion-like proteins in health and disease, with a special focus on the algorithms and databases developed for their prediction and classification.

Expert commentary: Computational approaches provide novel insights into prion-like protein functions, their regulation and their role in disease.     

Seasonal dynamics of the brown dog tick,Rhipicephalus sanguineus,on a confined dog population in Italy

This study evaluated the seasonal dynamics of Rhipicephalus sanguineus (Latreille) (Acari: Ixodidae) on naturally infested dogs in a private shelter in southern Italy. From March to May 2008, 39 autochthonous mixed‐breed young dogs and 10 beagles were enrolled in the study. From March 2008 until March 2009, every 21 ± 2 days, 11 body sites of each dog were checked for ticks. At each follow‐up, the number of ticks, their developmental stage, sex and location on the dog's body were recorded. Adult ticks were found throughout the year, but immatures were absent in January and February. The adult tick population increased from July to August, whereas the load of immatures increased in early July and peaked in September, which suggests that R. sanguineus develops one generation per year in this area. The mean number of immature ticks per infested dog was higher than that of adults from March to October 2008. Ears, interdigital areas and armpits were the most frequent attachment sites of adult ticks. At the last follow‐up, a total of 2266 ticks were collected and identified as R. sanguineus. The results suggest that R. sanguineus develops one generation per year in the study area, but that it infests dogs in all seasons. This information should be taken into account when planning control programmes against this tick species and the pathogens it transmits.     

益生菌防治过敏性疾病的进展和展望

过敏是一种病理性的免疫反应。随着全球患病率逐年上升,它已成为困扰人类健康的常见疾病。目前针对过敏性疾病的疗法大都收效甚微。研究证实,益生菌可以刺激免疫细胞的免疫调节特性,维持免疫内环境平衡,调节胃肠道生态系统,是潜在的防治过敏性疾病的有效疗法。改变抗原提呈细胞的功能或调节Th1/Th2平衡是益生菌抗过敏的基本作用机制。目前益生菌防治过敏性疾病已经成为国内外研究的热点,未来有望利用益生菌实现过敏性疾病的个性化与精准化治疗。本文就益生菌防治过敏性疾病的最新进展以及该领域前沿作一综述,期望有助于我国益生菌治疗和预防过敏性疾病的普及和研究。     

Roles of Long-range Electrostatic Domain Interactions and K+ in Phosphoenzyme Transition of Ca2+-ATPase

Sarcoplasmic reticulum Ca²⁺-ATPase couples the motions and rearrangements of three cytoplasmic domains (A, P, and N) with Ca²⁺ transport. We explored the role of electrostatic force in the domain dynamics in a rate-limiting phosphoenzyme (EP) transition by a systematic approach combining electrostatic screening with salts, computer analysis of electric fields in crystal structures, and mutations. Low KCl concentration activated and increasing salt above 0.1 m inhibited the EP transition. A plot of the logarithm of the transition rate versus the square of the mean activity coefficient of the protein gave a linear relationship allowing division of the activation energy into an electrostatic component and a non-electrostatic component in which the screenable electrostatic forces are shielded by salt. Results show that the structural change in the transition is sterically restricted, but that strong electrostatic forces, when K⁺ is specifically bound at the P domain, come into play to accelerate the reaction. Electric field analysis revealed long-range electrostatic interactions between the N and P domains around their hinge. Mutations of the residues directly involved and other charged residues at the hinge disrupted in parallel the electric field and the structural transition. Favorable electrostatics evidently provides a low energy path for the critical N domain motion toward the P domain, overcoming steric restriction. The systematic approach employed here is, in general, a powerful tool for understanding the structural mechanisms of enzymes.     

Report on the VIIth International Symposium on Heat Shock Proteins in Biology & Medicine

This seventh symposium in a series on heat shock proteins in biology and medicine was held November 1–5, 2014, at the Hilton Hotel in Old Town Alexandria, Virginia. Approximately 70 participants including principal investigators, postdoctoral fellows, and graduate students were in attendance. The major themes were: new properties of heat shock proteins (HSPs) and heat shock factor (HSF) and role in the etiology of cancer, molecular chaperones in aging, extracellular HSPs in inflammation and immunity, role of heat shock and the heat shock response in immunity and cancer, protein aggregation disorders and HSP expression, and Hsp70 in blood cell differentiation. The next meeting is planned for the fall of 2016 in the same venue.     

In vivo secretion and association of clusterin (SGP-2) in luminal fluid with spermatozoa in the rat testis and epididymis.

Clusterin (sulfated glycoprotein-2) is a heterodimeric glycoprotein synthesized and secreted by rat Sertoli cells. An antigenically similar form is synthesized and secreted by the epididymis. The goal of this study was to define the epididymal regions in which clusterin is present and the regions in which clusterin is secreted and interacts with developing spermatozoa. Seminiferous tubule (STF), caput, corpus, and cauda fluids were collected by micropuncture and/or microperfusion and two-dimensional Western blot analysis was performed with a polyclonal antibody directed against Sertoli cell clusterin. Clusterin was found in both STF and epididymal fluid. STF contained predominantly the clusterin heavy chain (45 kd); however, a 70 Kd heterodimer was present under nonreducing conditions. Two subunits of clusterin with lower molecular weights (41 kd, heavy chain; 32 kd, light chain) and higher isoelectric points were present in the luminal fluid of all epididymal regions. The intraluminal levels of the heavy and light chains decreased from caput to cauda. Analysis by two-dimensional gel electrophoresis of proteins secreted directly into the epididymal luminal fluid revealed that clusterin was secreted by caput epithelium and not by the corpus and cauda epithelium. Western blots of membrane extracts from testicular, caput, and cauda spermatozoa revealed that testicular clusterin was associated with testicular sperm and epididymal clusterin with predominantly caput sperm. Our findings suggest that clusterin is secreted into the caput epididymal lumen, where it binds to sperm and then dissociates from sperm to be endocytosed by cells of the distal epididymal epithelium.