Induced fit movements and metal cofactor selectivity of class II aldolases: structure of Thermus aquaticus fructose-1,6-bisphosphate aldolase

Fructose-1,6-bisphosphate (FBP) aldolase is an essential glycolytic enzyme that reversibly cleaves its ketohexose substrate into triose phosphates. Here we report the crystal structure of a metallo-dependent or class II FBP aldolase from an extreme thermophile, Thermus aquaticus (Taq). The quaternary structure reveals a tetramer composed of two dimers related by a 2-fold axis. Taq FBP aldolase subunits exhibit two distinct conformational states corresponding to loop regions that are in either open or closed position with respect to the active site. Loop closure remodels the disposition of chelating active site histidine residues. In subunits corresponding to the open conformation, the metal cofactor, Co(2+), is sequestered in the active site, whereas for subunits in the closed conformation, the metal cation exchanges between two mutually exclusive binding loci, corresponding to a site at the active site surface and an interior site vicinal to the metal-binding site in the open conformation. Cofactor site exchange is mediated by rotations of the chelating histidine side chains that are coupled to the prior conformational change of loop closure. Sulfate anions are consistent with the location of the phosphate-binding sites of the FBP substrate and determine not only the previously unknown second phosphate-binding site but also provide a mechanism that regulates loop closure during catalysis. Modeling of FBP substrate into the active site is consistent with binding by the acyclic keto form, a minor solution species, and with the metal cofactor mediating keto bond polarization. The Taq FBP aldolase structure suggests a structural basis for different metal cofactor specificity than in Escherichia coli FBP aldolase structures, and we discuss its potential role during catalysis. Comparison with the E. coli structure also indicates a structural basis for thermostability by Taq FBP aldolase.     

Structural basis for amplifying vinculin activation by talin

Talin interactions with vinculin are essential for focal adhesions. Curiously, talin contains three noncontiguous vinculin binding sites (VBS) that can bind individually to the vinculin head (Vh) domain. Here we report the crystal structure of the human Vh.VBS1 complex, a validated model of the Vh.VBS2 structure, and biochemical studies that demonstrate that all of talin VBSs activate vinculin by provoking helical bundle conversion of the Vh domain, which displaces the vinculin tail (Vt) domain. Thus, helical bundle conversion is a structurally conserved response in talin-vinculin interactions. Furthermore, talin VBSs bind to Vh in a mutually exclusive manner but do differ in their affinity for Vh and in their ability to displace Vt, suggesting that the strengths of these interactions could lead to differences in signaling outcome. These findings support a model in which talin binds to and activates multiple vinculin molecules to provoke rapid reorganization of the actin cytoskeleton.     

Penetrance and expressivity of MSH6 germline mutations in seven kindreds not ascertained by family history

Hereditary nonpolyposis colorectal cancer (HNPCC) is caused by inherited mutations in DNA mismatch-repair genes, most commonly MLH1 or MSH2. The role MSH6 plays in inherited cancer susceptibility is less well defined. The aim of this study was to investigate the penetrance and expressivity of MSH6 mutations in kindreds ascertained through endometrial cancer probands unselected for family history. Detailed pedigrees were constructed for six MSH6 mutation carriers. All reported cancers and precancers were confirmed, and tissues were obtained when available. Tumors were analyzed for microsatellite instability (MSI) and for expression of MSH2, MLH1, and MSH6. MSH6 mutation status was determined for 59 family members. Of these 59 individuals, 19 (32%) had confirmed cancers and precancers. There was an excess of mutation carriers among the 19 affected family members (11 [58%] of 19) compared with those among the 40 unaffecteds (8 [20%] of 40, P=.0065, odds ratio = 5.5, 95% CI = 1.66-18.19). In four of the seven tumors analyzed from mutation carriers other than the probands, MSI and/or MMR protein expression was consistent with the involvement of MSH6. Overall estimated penetrance of the MHS6 mutations was 57.7%. Of the tumors in mutation carriers, 78% were part of the extended HNPCC spectrum. This study demonstrates that MSH6 germline mutations are, indeed, associated with increased cancer risk and that the penetrance of mutations may be higher than appreciated elsewhere. A combination of MSI and immunohistochemistry analyses may be helpful in screening for MSH6 mutation carriers.     

Genotypic analysis of the TGF beta-509 allele in patients with systemic lupus erythematosus and Sjogren's syndrome

Transforming growth factor beta (TGFbeta) is a secreted protein present in the circulation and is a critical regulator of the body's immune system. TGFbeta is believed to control several components of the immune system and inhibit autoimmune reactions. Systemic lupus erythematosus (SLE) and Sjogren's syndrome (SS) are prototypical human autoimmune diseases characterized by the circulating autoantibodies directed against nuclear antigens and immune complex deposition in various tissues leading to target organ inflammation and damage. Although the etiology of SLE is unknown, it has been observed that patients with SLE have lower levels of circulating TGFbeta than healthy individuals. In addition, mice lacking the TGFbeta1 gene develop a severe autoimmune disease that has features of both SS and SLE. Polymorphisms in the TGFbeta1 gene may alter the mRNA expression levels and influence the plasma protein concentration. Of the known TGFbeta 1 polymorphisms, only the C-509T polymorphism in the promoter region has been shown to be significantly associated with the plasma concentrations of TGFbeta 1. In this study, we have conducted a blinded study to determine if the -509 TGFbeta1 gene polymorphism is associated with SS or SLE. Genomic PCR and RFLP analysis of a 441 bp sequence encompassing the -509 polymorphism of the TGFbeta gene indicated that there were no statistically significant clinical correlations.     

Typical Danish Caucasian type 2 diabetic patients do not commonly carry genetic variants in GIP and GLP-1 encoding regions of the proGIP and proglucagon genes

BACKGROUND: The enteroinsular-axis is abnormal in type 2 diabetics, which contributes to the diabetic phenotype. The effect of the incretin hormone gastric inhibitory polypeptide (GIP) and the secretion of the incretin hormone glucagon-like peptide-1 (GLP-1) are thus greatly diminished. The explanation for these changes could be changes in the structure of either of the hormones or their receptors. Thus, the aim of this study was to study the occurrence of genetic variants in the GIP and GLP-1 encoding regions of the proGIP and proglucagon genes in type 2 diabetic patients and matched control subjects. METHODS AND RESULTS: Genomic DNA was extracted from buffy coats from 12 Caucasian type 2 diabetics and 12 healthy subjects, matched with respect to sex, age and BMI. The GIP and GLP-1 sequences were amplified using specific primers using the polymerase chain reaction (PCR). The amplified products were then sequenced. No germ-line mutations were identified in the GIP and the GLP-1 encoding regions of the proGIP and proglucagon genes in either the type 2 diabetic or the control subjects. CONCLUSIONS: The perturbed incretin effect in type 2 diabetics is not commonly caused by genetic variants in either the GIP or the GLP-1 encoding genes in type 2 diabetics.     

Rapid one-step protein purification from plant material using the eight-amino acid StrepII epitope

Beyond the rewards of plant genome analysis and gene identification, characterisation of protein activities, post-translational modifications and protein complex composition remains a challenge for plant biologists. Ideally, methods should allow rapid isolation of proteins from plant material achieving a high degree of purity. We tested three purification strategies based on the eight-amino acid StrepII, six-amino acid His₆ and 181-amino acid Tandem Affinity Purification (TAP) affinity tags for enrichment of a membrane-anchored protein kinase, NtCDPK2, and a soluble protein, AtSGT1b, from leaf extracts. Transiently expressed StrepII-taggedNtCDPK2 was purified from Nicotiana benthamiana to almost complete homogeneity in less than 60min and was directly suitable for enzymatic or mass-spectrometric analyses, allowing the identification of in planta phosphorylation sites. In contrast, purification of NtCDPK2 via His₆ tag yielded partially oxidised protein of low purity. AtSGT1b could be isolated after transient expression from N. benthamiana or from transgenic Arabidopsis thaliana as either TAP-tagged or StrepII-tagged protein. While StrepII-tag purification achieved similar yield and high purity as the TAP-tag strategy, it was considerably easier and faster. Using either tagging strategy, a protein was co-purified with AtSGT1b from N. benthaniana and A. thalianaleaf extracts, suggesting that both the StrepII and TAP tags are suitable for purification of protein complexes from plant material. We propose that the StrepII epitope, in particular, may serve as a generally utilizable tag to further our understanding of protein functions, post-translational modifications and interaction dynamics in plants.     

Studies on the biodegradability of polythioester copolymers and homopolymers by polyhydroxyalkanoate (PHA)-degrading bacteria and PHA depolymerases

The biodegradability of microbial polythioesters (PTEs), a novel class of biopolymers which were discovered recently and can be produced by polyhydroxyalkanoate (PHA)-accumulating bacteria, was studied. Using poly(3-hydroxybutyrate-co-3-mercaptopropionate) [poly(3HB-co-3MP)] as sole carbon source for screening, 22 new bacterial strains were isolated and characterized. Interestingly, none of the PHA-degrading bacteria was able to utilize the homopolymer poly(3MP) as a carbon source for growth or to form clear zones on poly(3MP)-containing agar plates. The extracellular PHA depolymerases from two strains ( Schlegelella thermodepolymerans, Pseudomonas indica K2) were purified to electrophoretic homogeneity and biochemically characterized. The PHA depolymerase of S. thermodepolymerans exhibited a temperate optimum of about 75°C to 80°C and was stable at 70°C for more than 24 h. Regarding the substrate specificities of the PHA depolymerase of S. thermodepolymerans, enzyme activities decreased significantly with increasing 3MP content of the copolymer substrates. Interestingly, no activity could be detected with homoPTEs consisting only of 3MP or of 3-mercaptobutyrate. Similar results were obtained with the PHA depolymerases PhaZ2, PhaZ5 and PhaZ7 of Paucimonas lemoignei which were also investigated. The PHA depolymerase of Ps. indica K2 did not cleave any of the investigated polymers containing 3MP. Gas chromatography, infrared and ¹H-NMR spectrometry and matrix-assisted laser desorption/ionization time-of-flight analysis revealed that 3MPs containing oligomers were enriched in the water-insoluble fraction remaining after partial digestion of poly(3HB-co-3MP) by purified poly(3HB) depolymerase of S. thermodepolymerans. In contrast, 3HB was enriched in the water-soluble fraction, which also contained 3HB-co-3MP dimer obtained by partial digestion of this copolymer by the enzyme. This study clearly indicates that PHA depolymerases are specific for oxoester linkages of PHAs and that the thioester bonds of PTEs cannot be cleaved by this type of enzyme.This publication is dedicated to Prof. Dr. Hans G. Schlegel in honor of his 80th birthday     

Genetic diversity patterns in the SR-BI/II locus can be explained by a recent selective sweep

The human scavenger receptor class B type I (SR-BI and splice variant SR-BII) plays a central role in HDL cholesterol metabolism and represents a candidate gene for a number of related diseases. We examined the genetic diversity of its coding and flanking regions in a sample of 178 chromosomes from individuals of European, African, East Asian (including Southeast Asian), Middle-Eastern as well as Amerindian descent. Nine of the 14 polymorphisms observed are new. Four of the five variants causing amino acid replacements, G2S, S229G, R484W, and G499R, are likely to affect protein structure and function. SR-BI/BII diversity is partitioned among 19 haplotypes; all but one interconnected by single mutation or a recombination event. Such tight haplotype network and the unusual geographic partitioning of this diversity, high not only in Africa but in East Asia as well, suggests its recent origin and possible effect of selection. Coalescent analysis infers a relatively short time to the most recent common ancestor and points to population expansion in Africa and East Asia. These two continents differ significantly in pairwise F(ST) values, differing as well from a single cluster formed by Europe, Middle East and America. In the context of findings for similarly analyzed other loci, we propose that a selective sweep at the origin of modern human populations could explain the low level of ancestral SR-BI/II diversity. The unusually deep split between Africa and Asia, well beyond the Upper Paleolithic when inferred under neutrality, is consistent with subsequent geographical and demographic expansion favoring the accumulation of new variants, especially in groups characterized by large effective population sizes, such as Asians and Africans. The relevance of such partitioning of SR-BI/II diversity remains to be investigated in genetic epidemiological studies which can be guided by the present findings.     

Memory T-cell response to rotavirus detected with a gamma interferon enzyme-linked immunospot assay

Measurements of serum-neutralizing antibody and anti-rotavirus immunoglobulin A (IgA) are the current standard for assessing immune responses following rotavirus vaccination. However, there is ongoing debate as to whether antibody titers correlate with protection against rotavirus gastroenteritis. Children recovering from rotavirus gastroenteritis have increased gamma interferon release from cultured peripheral blood mononuclear cells (PBMCs), suggesting that cell-mediated immunity (CMI) may play a role in viral clearance and protection from subsequent gastroenteritis. We have developed a gamma interferon enzyme-linked immunospot (ELISPOT) assay for evaluation of CMI responses to rotavirus using frozen PBMCs obtained from healthy adults. Responses to three different rotavirus antigen types were analyzed-a peptide pool based on the human VP6 sequence; reassortant human:bovine vaccine strains; and cell culture-adapted (CCA) human G1, G2, G3, G4, and bovine (WC3) G6 strains. The reassortant strains consist of a bovine WC3 genome background expressing the human rotavirus surface proteins VP7 (G1, G2, G3, or G4) or VP4 (P1). Responses to titrations of the peptide pool as well as CCA and reassortant strains were assessed. Gamma interferon ELISPOT responses were similar for CCA and reassortant strains, whether live or UV inactivated, and when tested either individually or pooled. For most subjects, responses to the VP6 peptide pool positively correlated with responses to CCA and reassortant strains. Cell depletion studies indicate the memory responses detected with these frozen adult PBMCs were primarily due to the CD4+ T-cell population. This gamma interferon ELISPOT assay provides a new tool to apply in clinical studies for the characterization of natural or vaccine-induced CMI to rotavirus.