Native antiviral specificity of chicken Mx protein depends on amino acid variation at position 631

An attempt was made to determine whether amino acid variation at position 631 in the chicken Mx protein definitely influences antiviral specificity, using an artificial mutation technique by which a single amino acid was reciprocally substituted between Ser (AGT) and Asn (AAT) at position 631 of the negative and positive chicken Mx, respectively. Using permanently transfected 3T3 cell lines, the antiviral potential of chicken Mx against vesicular stomatitis virus infection was analysed. The results indicated that the phenotype of antiviral activity depends on the amino acid difference at position 631; that is, the genotype coding Asn at position 631 corresponds to the positive antiviral phenotype, and the genotype coding Ser corresponds to the negative phenotype. The present study has confirmed that the antiviral specificity of chicken Mx protein is determined by an amino acid substitution at the carboxy terminus.     

Partial antiviral activities of the Asn631 chicken Mx against newcastle disease virus and vesicular stomatitis virus

Conflicting data existed for the antiviral potential of the chicken Mx protein and the importance of the Asn631 polymorphism in determination of the antiviral activity. In this study we modified the chicken Mx cDNA from the Ser631 to Asn631 genotype and transfected them into COS-I cells, chicken embryonic fibroblast (CEF) or NIH 3T3 cells. The Mx protein was mainly located at the cytoplasm. The transfected cell cultures were challenged with newcastle disease virus (NDV) or vesicular stomatitis virus (VSV), cytopathic affect (CPE) inhibition assay showed that the times for development of visible and full CPE were significantly postponed by the Asn631 cDNA transfection at 48 h transfection, but not by the Ser631 cDNA transfection. Viral titration assay showed that the virus titers were significantly reduced before 72 h postinfection. CEF cells was incubated by the cell lysates extracted from the COS-I cells transfected with pcDNA-Mx/Asn631, could resist and delayed NDV infection. These data suggested the importance of the Asn631 polymorphism of the chicken Mx in determination of the antiviral activities against NDV and VSV at early stage of viral infection, which were relatively weak and not sufficient to inhibit the viral replication at late stage of viral infection.     

Effect of single amino acid substitutions at the same position on stability of a two-domain protein

In order to elucidate the role of individual amino acid residues on the conformational stability of a protein, the stabilities of the wild-type tryptophan synthase α-subunit from Escherichia coil and its five mutant proteins substituted by single amino acid residues at the same position 49 were compared. The five mutant proteins have glutamine, methionine, valine, serine, or tyrosine in place of glutamic acid of the wild-type protein at position 49. Denaturation of these proteins, which consist of two domains, by guanidine hydrochloride can be analyzed as a two-step process. We obtained the equilibrium constants between the native and the denatured forms and between the native and the stable intermediate forms for the above six proteins in the absence of denaturant at three pH values.     

Synthesis and antiviral activity of amino acid esters of ribavirin

The synthesis and antiviral activity of amino acid esters of 1-(β-D-ribofuranosyl)-1,2,4-triazole-3-carboxamide (ribavirin,1) is described.     

Asparagine 631 variants of the chicken Mx protein do not inhibit influenza virus replication in primary chicken embryo fibroblasts or in vitro surrogate assays

Whether chicken Mx inhibits influenza virus replication is an important question with regard to strategies aimed at enhancing influenza resistance in domestic flocks. The Asn631 polymorphism of the chicken Mx protein found in the Shamo (SHK) chicken line was previously reported to be crucial for the antiviral activity of this highly polymorphic chicken gene. Our aims were to determine whether cells from commercial chicken lines containing Asn631 alleles were resistant to influenza virus infection and to investigate the effects that other polymorphisms might have on Mx function. Unexpectedly, we found that the Asn631 genotype had no impact on multicycle replication of influenza virus (A/WSN/33 [H1N1]) in primary chicken embryo fibroblast lines. Furthermore, expression of the Shamo (SHK) chicken Mx protein in transfected 293T cells did not inhibit viral gene expression (A/PR/8/34 [H1N1], A/Duck/England/62 [H4N6], and A/Duck/Singapore/97 [H5N3]). Lastly, in minireplicon systems (A/PR/8/34 and A/Turkey/England/50-92/91 [H5N1]), which were highly sensitive to inhibition by the murine Mx1 and human MxA proteins, respectively, Shamo chicken Mx also proved ineffective in the context of avian as well as mammalian cell backgrounds. Our findings demonstrate that Asn631 chicken Mx alleles do not inhibit influenza virus replication of the five strains tested here and efforts to increase the frequency of Asn631 alleles in commercial chicken populations are not warranted. Nevertheless, chicken Mx variants with anti-influenza activity might still exist. The flow cytometry and minireplicon assays described herein could be used as efficient functional screens to identify such active chicken Mx alleles.     

鸡Mx蛋白基因诱变修饰及抗病活性

[目的]进一步研究鸡Mx蛋白第631位氨基酸的变异与鸡群抗病性的相关性.[方法]本实验利用PCR突变技术将鸡Mx蛋白基因的全长cDNA第2032位的碱基由G突变为A(既631位氨基酸的改变),并将突变的Mx基因插入真核表达载体pcDNA3.0,重组表达载体转染COS-Ⅰ细胞后,进行RT-PCR与间接免疫荧光(IFA)鉴定.[结果]对鸡Mx蛋白基因的cDNA进行PCR诱变修饰正确,构建了能够正确表达鸡Mx蛋白的重组真核表达载体;诱变修饰重组Mx蛋白对抗新城疫病毒(NDV)感染分析结果显示,重组Mx蛋白具有较强的抗新城疫病毒生物活性.[结论]为下一步研究鸡Mx蛋白的抗病机理与制备抗病转基因鸡奠定了坚实的基础.     

Single amino acid substitutions at conserved residues of human interferon-alpha can effect antiviral specific activity

Site-specific in vitro mutagenesis was used to direct various amino acid substitutions at conserved positions within the sequence of human interferon-alpha 1 (IFN-alpha 1). The antiviral specific activity of IFN-alpha 1, expressed in M13 as a fusion protein [IFN-alpha 1 (phi WT)], could be altered by single amino acid substitutions. The substitution of glycine for tyrosine at position 123 results in a loss of more than 99% of the antiviral specific activity on human cells, but causes no significant change in the antiviral specific activity on primary bovine cells. The tyrosine at position 123 is thus implicated in determining human cell specificity. Based on analysis of IFN-alpha 2, IFN-alpha 1 contains two dulsulphide bridges between cysteine residues 29 and 139 and cysteine residues 1 and 99. IFN-alpha 1 also contains a fifth cysteine residue at position 86. IFN-alpha 1 (phi WT) carrying three serine for cysteine substitutions at positions 1, 86 and 99 retains 23% of the antiviral specific activity of IFN-alpha 1 (phi WT) on human cells. However, the antiviral activity on bovine cells is not significantly affected by this modification. The presence of the disulphide bridge between residues 1 and 99 thus appears to be required for full antiviral activity on human but not bovine cells. A single serine for cysteine substitution at position 29 reduces the antiviral specific activity on both human and bovine cells by some 95%. This data shows that the disulphide bridge between residues 29 and 139 is critical for the antiviral activity of IFN-alpha's.     

Ovocalyxin-32, a novel chicken eggshell matrix protein. isolation, amino acid sequencing, cloning, and immunocytochemical localization

The eggshell is a highly ordered structure resulting from the deposition of calcium carbonate concomitantly with an organic matrix upon the eggshell membranes. Mineralization takes place in an acellular uterine fluid, which contains the ionic and matrix precursors of the eggshell. We have identified a novel 32-kDa protein, ovocalyxin-32, which is expressed at high levels in the uterine and isthmus regions of the oviduct, and concentrated in the eggshell. Sequencing of peptides derived from the purified protein allowed expressed sequence tag sequences to be identified that were assembled to yield a full-length composite sequence whose conceptual translation product contained the complete amino acid sequence of ovocalyxin-32. Data base searches revealed that ovocalyxin-32 has limited identity (32%) to two unrelated proteins: latexin, a carboxypeptidase inhibitor expressed in the rat cerebral cortex and mast cells, and a skin protein, which is encoded by a retinoic acid receptor-responsive gene, TIG1. High level expression of ovocalyxin-32 was limited to the isthmus and uterus tissue, where immunocytochemistry at the light and electron microscope levels demonstrated that ovocalyxin-32 is secreted by surface epithelial cells. In the eggshell, ovocalyxin-32 localizes to the outer palisade layer, the vertical crystal layer, and the cuticle of the eggshell, in agreement with its demonstration by Western blotting at high levels in the uterine fluid during the termination phase of eggshell formation. Ovocalyxin-32 is therefore identified as a novel protein synthesized in the distal oviduct where hen eggshell formation occurs.     

Cloning and analysis of antiviral activity of a barramundi (Lates calcarifer) Mx gene

We obtained a full-length cDNA clone for the Mx gene of barramundi (Lates calcarifer), using RACE (rapid amplification of cDNA ends) polymerase chain reaction (PCR) amplification of RNA extracted from a barramundi brain cell line cBB. The Mx cDNA of 2.2kb contains an open reading frame (ORF) of 1875 nucleotides encoding a protein of 624 amino acids. The predicted barramundi Mx protein is 71.4 kDa and contains a tripartite guanosinetriphosphate (GTP)-binding motif at the amino terminal and a leucine zipper at the carboxyl terminal, characteristic of all known Mx proteins. Poly I:C-transfection induced the expression of Mx gene in cBB cells, and the induction level at 28 degrees C was higher than that at 20 degrees C. Moreover, Mx gene expression was also induced by viral infection, including fish nodavirus, birnavirus, and iridovirus. Among these, nodavirus was a stronger inducer than the other two viruses. Using an antiviral activity assay, we revealed that poly I:C-transfected cBB cells had antiviral activity against fish nodavirus and birnavirus, but not iridovirus. Furthermore, the replication of nodavirus and birnavirus could be restored after the expression of Mx gene was down-regulated by siRNA. Therefore, these results indicated that the expression of barramundi Mx gene was able to inhibit the proliferation of fish nodavirus and birnavirus.     

Synthesis,antioxidative and antiviral activity of hydroxycinnamic acid amides of thiazole containing amino acid

The synthesis and the biological (antioxidant and antiviral) activities of novel hydroxycinnamic acid amides of a thiazole containing TFA.valine-4-carboxylic acid ethyl ester are reported. The amides have been synthesized from p-coumaric, ferulic and sinapic acids with the corresponding TFA.valine-thiazole-4-carboxylic acid ethyl ester using the coupling reagent N-ethyl-N′-(3-dimethylaminopropyl) carbodiimide hydrochloride (EDC) and 4-(dimethylamino) pyridine (DMAP) as a catalyst. The antioxidant properties of the newly synthesized amides have been studied for then antioxidative activity using 2,2-diphenyl-1-picrylhydrazyl (DPPH)* test. The newly synthesized compounds have been tested against the replication in vitro of influenza virus A (H3N2) and human herpes virus 1 and 2 (HSV-1 and HSV-2).     

Na(+)/I(-) symporter activity requires a small and uncharged amino acid residue at position 395

Active iodide uptake in the thyroid is mediated by the Na(+)/I(-) symporter (NIS), a key plasma membrane glycoprotein. Several NIS mutations have been shown to cause I(-) transport defect, a condition that, if untreated, can lead to congenital hypothyroidism and, ultimately, cretinism. The study of I(-) transport defect-causing NIS mutations provides valuable insights into the structure-function and mechanistic properties of NIS. Here we report the thorough analysis of the G395R NIS mutation. We observed no I(-) uptake activity at saturating or even supersaturating external I(-) concentrations in COS-7 cells transiently transfected with G395R NIS cDNA, even though we demonstrated normal expression of G395R NIS and proper targeting to the plasma membrane. Several amino acid substitutions at position 395 showed that the presence of an uncharged amino acid residue with a small side chain at position 395 is required for NIS function, suggesting that glycine 395 is located in a tightly packed region of NIS. Substitutions of large amino acid residues at position 395 resulted in lower V(max) without affecting K(m) values for I(-) and Na(+), suggesting that these residues hamper the Na(+)/I(-) coupling reaction.     

Synthesis and antiviral activity of amides and conjugates of betulonic acid with amino acids

Betulonic acid amides with aliphatic and heterocyclic amines and with L-amino acids were synthesized by the acid chloride method. Betulonic acid amide and L-methionine derivatives of betulonic acid and its 3-oxime effectively inhibit the influenza A virus. Betulonic acid octadecylamide is active against the herpes simplex type 1 virus. The conjugate of betulonic acid 3-oxime with L-methionine is also active toward HIV-1. The tested compounds mainly show no activity toward the ECHO6 virus, which is devoid of a coat. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2004, vol. 30, no. 1; see also http://www.maik.ru.     

Nuclear localization of the Hermes transposase depends on basic amino acid residues at the N-terminus of the protein

For the Hermes transposable element to be mobilized in its eukaryotic host, the transposase, encoded by the element, must make contact with its DNA. After synthesis in the cytoplasm, the transposase has to be actively imported into the nucleus because its size of 70.1 kDa prevents passive diffusion through the nuclear pore. Studies in vitro using transient expression of a Hermes-EGFP fusion protein in Drosophila melanogaster Schneider 2 cells showed the transposase was located predominantly in the nucleus. In silico sequence analysis, however, did not reveal any nuclear localization signal (NLS). To identify the sequence(s) responsible for localization of Hermes transposase in the nucleus, truncated or mutated forms of the transposase were examined for their influence on sub-cellular localization of marker proteins fused to the transposase. Using the same expression system and a GFP-GUS fusion double marker, residues 1-110 were recognized as sufficient, and residues 1-32 as necessary, for nuclear localization. Amino acid K25 greatly facilitated nuclear localization, indicating that at least this basic amino acid plays a significant role in this process. This sequence overlaps the proposed DNA binding region of the Hermes transposase and is not necessarily conserved in all members of the hAT transposable element family.     

In vitro antiviral activity of fullerene amino acid derivatives in cytomegalovirus infection]

The in vitro effect of 5 water soluble fullerene C60 amino acid derivatives (FAD) on the development of cytomegalovirus infection was studied in the schemes of the therapeutic, prophylactic and virucidal action. The following compounds as FAD were used: fullerene conjugated with Na salt of gamma-aminobutyric acid (C60-ABA-Na), 2 derivatives based on Na salts of fullerene-gamma-aminobutyric acid and fullerene-omega-caproic acid (C60-ABA-OH-Na and C60-ACA-OH-Na respectively) and 2 derivatives based on methyl ethers of the above mentioned fullerene amino acids (C60-ABA-OH-CH3 and C60-ACA-OH-CH3). All the FAD were able to inhibit the development of the virus cytopathogenic action in the cell culture. However, the compounds had different antiviral properties. C60-ABA-OH-Na, C60-ABA-CH3 and C60-ACA-CH3 showed marked antiviral activity in the prophylactic scheme. 50-Percent inhibition of the virus cytopathogenic action (ID50) was observed when concentrations of the compounds were 0.31, 5 and 25 mcg/ml respectively. C60-ACA-OH-Na inhibited the development of cytomegalovirus infection in the cell culture only in the scheme of the therapeutic action (ID50 4 mcg/ml). C60-ABA-Na had the highest antiviral effect. In a concentration of 0.22 mcg/ml it inhibited the cytomegalovirus plague-forming capacity by 50% in both the prophylactic and the virucidal schemes. The chemotherapeutic index of the compound was within the limits of 2500 to 5450.     

Effect of nicotinic acid on chicken liver protein kinase activity and cAMP content

The biosynthesis of fatty acids in the chicken liver was stimulated by feeding up chickens with high-carbon products. After fasting the cAMP content and protein kinase activity in chicken fall considerably as compared to the control. After administration of nicotinic acid to chicken under experiment the content of cAMP and the protein kinase activity in the liver tissue rise to the highest extent, returning to initial values by the end of the day. The maximal increase in the cAMP content and protein kinase activity coincides in time with the maximum of the acetyl-CoA-carboxylase activity decrease. An assumption is advanced that biosynthesis of fatty acids in the liver tissue of chickens is regulated by a change in the degree of acetyl-CoA-carboxylase phosphorylation with the participation of adenylate cyclase system.     

Predicting protein subcellular localization by pseudo amino acid composition with a segment-weighted and features-combined approach

Information of protein subcellular location plays an important role in molecular cell biology. Prediction of the subcellular location of proteins will help to understand their functions and interactions. In this paper, a different mode of pseudo amino acid composition was proposed to represent protein samples for predicting their subcellular localization via the following procedures: based on the optimal splice site of each protein sequence, we divided a sequence into sorting signal part and mature protein part, and extracted sequence features from each part separately. Then, the combined features were fed into the SVM classifier to perform the prediction. By the jackknife test on a benchmark dataset in which none of proteins included has more than 90% pairwise sequence identity to any other, the overall accuracies achieved by the method are 94.5% and 90.3% for prokaryotic and eukaryotic proteins, respectively. The results indicate that the prediction quality by our method is quite satisfactory. It is anticipated that the current method may serve as an alternative approach to the existing prediction methods.     

Subcellular localization and antiviral activity of carminic acid/poly r(A-U) combinations

Carminic acid (CAR) enhances the antiviral activity of poly r(A-U) twelve-fold without increasing interferon induction, inactivating the vesicular stomatitis virus or inducing host cell cytotoxicity. Phase contrast photomicrographs of human foreskin fibroblasts (HSF) incubated with CAR alone, poly r(A-U) alone or with a CAR/poly r(A-U) combination illustrate that the CAR/poly r(A-U) combinations display altered subcellular distribution with the CAR being localized in the nucleoli and chromatin. Phase contrast and fluorescence photomicrographs of adriamycin (ADR)-treated and ADR/poly r(A-U)-treated HSF cells corroborate these findings. These results suggest that modulation of one or more nucleolar processes may be responsible for the enhanced antiviral activity.     

The amino acid sequence of Limulus C-reactive protein. Evidence of polymorphism

The amino acid sequence, the positions of the disulfide bonds, and the site of glycosylation for the three subunits of Limulus C-reactive proteins (CRPs) 1.1, 1.4, and 3.3 have been established. The three subunits were shown to exist approximately in equimolar amount and are tightly associated. The hexagonal structure of Limulus CRP, as revealed by electron microscopic studies of Fernandez-Moran et al. (Fernandez-Moran, H., Marchalonis, J., and Edelman, G. M. (1968) J. Mol. Biol. 32, 467-469) might consist of two each of the subunits. The three subunits share an identical amino-terminal sequence of 44 residues and a carboxyl-terminal sequence from residues 206 to 218. Microheterogeneity exists to the extent of 10 to 11% for the entire protein. The positions of 6 half-cystines that form the three disulfide bonds and the site of glycosylation are constant in all subunits. Sequence analyses of peptides derived from enzymatic and chemical cleavages of affinity purified Limulus CRP indicate that subunits other than the three mentioned above exist in the hemolymph. Limulus CRP is therefore polymorphic. Topological analyses of Limulus CRPs, human CRP, rabbit CRP, human amyloid P-component, and Syrian hamster female protein indicate that the seven proteins may originate from the same ancestral gene. Using the topological data generated from the amino acid sequences of the proteins, we calculate that human and Limulus CRPs diverged about 500 million years ago. This figure is in general agreement with the evolutionary distance postulated by anthropological estimation of 400-500 million years.