The Hsp60-(p.V98I) mutation associated with hereditary spastic paraplegia SPG13 compromises chaperonin function both in vitro and in vivo

We have previously reported the association of a mutation (c.292G > A/p.V98I) in the human HSPD1 gene that encodes the mitochondrial Hsp60 chaperonin with a dominantly inherited form of hereditary spastic paraplegia. Here, we show that the purified Hsp60-(p.V98I) chaperonin displays decreased ATPase activity and exhibits a strongly reduced capacity to promote folding of denatured malate dehydrogenase in vitro. To test its in vivo functions, we engineered a bacterial model system that lacks the endogenous chaperonin genes and harbors two plasmids carrying differentially inducible operons with human Hsp10 and wild-type Hsp60 or Hsp10 and Hsp60-(p.V98I), respectively. Ten hours after shutdown of the wild-type chaperonin operon and induction of the Hsp60-(p.V98I)/Hsp10 mutant operon, bacterial cell growth was strongly inhibited. No globally increased protein aggregation was observed, and microarray analyses showed that a number of genes involved in metabolic pathways, some of which are essential for robust aerobic growth, were strongly up-regulated in Hsp60-(p.V98I)-expressing bacteria, suggesting that the growth arrest was caused by defective folding of some essential proteins. Co-expression of Hsp60-(p.V98I) and wild-type Hsp60 exerted a dominant negative effect only when the chaperonin genes were expressed at relatively low levels. Based on our in vivo and in vitro data, we propose that the major effect of heterozygosity for the Hsp60-(p.V98I) mutation is a moderately decreased activity of chaperonin complexes composed of mixed wild-type and Hsp60-(p.V98I) mutant subunits.     

Properties of Palmitoyl Phosphatidylcholine, Sphingomyelin, and Dihydrosphingomyelin Bilayer Membranes as Reported by Different Fluorescent Reporter Molecules

The properties of vesicle membranes prepared from 16:0-SM, 16:0-DHSM, or DPPC were characterized using steady-state and time-resolved fluorescence spectroscopy and different fluorescent reporter molecules. The acyl-chain region was probed using free and phospholipid-bound 1,6-diphenyl-1,3,5-hexatriene. 16:0-DHSM was found to be the more ordered than both DPPC and 16:0-SM 5°C below and above melting temperature. Interfacial properties of the phospholipid bilayers were examined using 6-dodecanoyl-2-dimethyl-aminonaphthalene (Laurdan), 6-propionyl-2-dimethyl-amino-naphthalene (Prodan), and dansyl-PE. Laurdan and Prodan reported that the two sphingomyelin (SM) membrane interfaces were clearly different from the DPPC membrane interface, whereas the two SM membrane interfaces had more similar properties (both in gel and liquid-crystalline phase). Prodan partition studies showed that membrane resistance to Prodan partitioning increased in the order: 16:0-SM < DPPC < 16:0-DHSM. The degree to which dansyl-PE is exposed to water reflects the structural properties of the membrane-water interface. By comparing the lifetime of dansyl-PE in water and deuterium oxide solution, we could show that the degree to which the dansyl moiety was exposed to water in the membranes increased in the order: 16:0-SM < DPPC < 16:0-DHSM. In conclusion, this study has shown that DHSM forms more ordered bilayers than acyl-chain matched SM or phosphatidylcholine, even in the liquid-crystalline state.     

Non-invasive measurements of exhaled NO and CO associated with methacholine responses in mice

Background

Nitric oxide (NO) and carbon monoxide (CO) in exhaled breath are considered obtainable biomarkers of physiologic mechanisms. Therefore, obtaining their measures simply, non-invasively, and repeatedly, is of interest, and was the purpose of the current study.

Methods

Expired NO (E_NO) and CO (E_CO) were measured non-invasively using a gas micro-analyzer on several strains of mice (C57Bl6, IL-10^-/-, A/J, MKK3^-/-, JNK1^-/-, NOS-2^-/- and NOS-3^-/-) with and without allergic airway inflammation (AI) induced by ovalbumin systemic sensitization and aerosol challenge, compared using independent-sample t-tests between groups, and repeated measures analysis of variance (ANOVA) within groups over time of inflammation induction. E_NO and E_CO were also measured in C57Bl6 and IL-10-/- mice, ages 8–58 weeks old, the relationship of which was determined by regression analysis. S-methionyl-L-thiocitrulline (SMTC), and tin protoporphyrin (SnPP) were used to inhibit neuronal/constitutive NOS-1 and heme-oxygenase, respectively, and alter NO and CO production, respectively, as assessed by paired t-tests. Methacholine-associated airway responses (AR) were measured by the enhanced pause method, with comparisons by repeated measures ANOVA and post-hoc testing.

Results

E_NO was significantly elevated in naïve IL-10^-/- (9–14 ppb) and NOS-2^-/- (16 ppb) mice as compared to others (average: 5–8 ppb), whereas E_CO was significantly higher in naïve A/J, NOS-3^-/- (3–4 ppm), and MKK3^-/- (4–5 ppm) mice, as compared to others (average: 2.5 ppm). As compared to C57Bl6 mice, AR of IL-10^-/-, JNK1^-/-, NOS-2^-/-, and NOS-3^-/- mice were decreased, whereas they were greater for A/J and MKK3^-/- mice. SMTC significantly decreased E_NO by ~30%, but did not change AR in NOS-2^-/- mice. SnPP reduced E_CO in C57Bl6 and IL-10^-/- mice, and increased AR in NOS-2^-/- mice. E_NO decreased as a function of age in IL-10^-/- mice, remaining unchanged in C57Bl6 mice.

Conclusion

These results are consistent with the ideas that: 1) E_NO is associated with mouse strain and knockout differences in NO production and AR, 2) alterations of E_NO and E_CO can be measured non-invasively with induction of allergic AI or inhibition of key gas-producing enzymes, and 3) alterations in AR may be dependent on the relative balance of NO and CO in the airway.     

Biomarkers in osteoarthritis

Biomarkers aid the study of osteoarthritis (OA) in a number of different ways. In this article we summarise briefly their multiple uses and reflect on how the study reported in a previous edition of Arthritis Research & Therapy should promote further investigation of cartilage oligomeric matrix protein (COMP). COMP is foremost among hitherto investigated biomarkers and is most consistently shown to predict knee OA progression. Precisely what role it plays in OA pathogenesis remains unclear and elucidating this may be key to defining, and then targeting, the cellular pathways involved in OA.     

DETECTING DESERTIFICATION PROCESSES USING TM AND ETM+ DATA, NORTH OF ISFAHAN, IRAN

 Aims Desertification results in ecological and biological diminution of the earth, and can happen naturally or cause by anthropogenic activities. This process especially affects arid and semi-arid regions, such as the Isfahan region, where the spread of desertification is reaching critical proportions. The aim of this study is to use remotely sensed data to review the trend of desertification in the northern of Isfahan, Iran. Methods Multi-temporal images were employed to evaluate the trend of desertification, specifically the TM and ETM+ data of September, 1990 and September, 2001. Geometric and radiometric corrections were applied to each image prior to image processing and supervised classification, and vegetation indices were applied to produce a land use map of each image in nine classes. The land use classification s in the two map images were compared and changes between land use classes were detected over the 11 year period using a fuzzy and post-classification technique. Important findings The maps and their comparison with false color composite images showed the differences efficiently. With the fuzzy and post-classification method the land use changes were sited on the map. Fuzzy confirmed 53% changed area and 47% unchanged areas in the study region. The results verify the desertification expansion in the study areas. Because of poor land management, agricultural lands converted to desert and abandoned areas, and some marginal pasture lands had to be changed to agricultural land which are desertification spreading according to United Nations Conference on Desertification (UNCOD). Also farmland and pastures have been converted to urban and industrial areas, and the rangelands have been spoiled due to opencast mine excavations. With the mine margins eroding as well as their debris accumulating on the pasture lands, desertification has become worse. Three areas of less-elevated mountains have remained unchanged. This study confirmed that the anthropogenic activities accelerated the desertification process and severely endangered the remaining areas.     

Frequent occurrence of recognition Site-like sequences in the restriction endonucleases

Background  

There are two different theories about the development of the genetic code. Woese suggested that it was developed in connection with the amino acid repertoire, while Crick argued that any connection between codons and amino acids is only the result of an "accident". This question is fundamental to understand the nature of specific protein-nucleic acid interactions.     

Conformation of the branched O-specific polysaccharide of Shigella dysenteriae type 2: molecular mechanics calculations show a compact helical structure exposing an epitope which potentially mimics galabiose

Conformational analyses of the branched repeating unit of the O-antigenic polysaccharide of Shigella dysenteriae type 2 have been performed with molecular mechanics MM3. A filtered systematic search on the trisaccharide alpha-D-GalNAc-(1-->3)-[alpha-D-GlcNAc-(1-->4)]-alpha-D-GalNAc forming the branch, shows essentially a single favored conformation. Also, the downstream alpha-D-GalNAc-(1-->4)-alpha-D-Glc linkage is sterically constrained. The alpha-D-Glc-(1-->4)-beta-D-Gal moiety, however, forms a more flexible link region between the branch points, and shows a 90 degrees bend similar to what is known for the galabiose moiety occurring in globo-glycolipids. The calculations indicate that consecutive repeating units in their minimum energy conformation arrange in a helical structure with three repeating units per turn. This helix is very compact and appears to be stabilized by hydrophobic interactions involving the N-acetyl groups at the branch points. Random conformational search suggests the existence of another helical structure with four repeating units per turn. It appears possible that the alpha-D-Glc-(1-->4)-beta-D-Gal moiety, which is exposed on the surface of the helical structures, can evade recognition by the immune system of the host by the mimicry of globo structures.     

Fluorescent 7- and 8-methyl etheno derivatives of adenosine and 6-amino-9-ethylpurine: syntheses and fluorescence properties

Two fluorescent adenosine derivatives (5 and 7) (Sch. 1) and two 6-amino-9-ethylpurine derivatives (6 and 8) (Sch. 1), were synthesised using 2-chloropropanal and 3-chloropropyne as reagents. The structures of the products were determined by spectroscopic and spectrometric methods (1H-, 13C- and 2D NMR, MS, UV and fluorescence spectrometry). Their fluorescence properties were determined and found to be similar to those of ethenoadenosine. Also, the stabilites of 5 and 7 in aqueous solutions were determined and found to be higher than that of the etheno derivative of adenosine.     

ATP-binding modes and functionally important interdomain bonds of sarcoplasmic reticulum Ca2+-ATPase revealed by mutation of glycine 438, glutamate 439, and arginine 678

ATP binds to sarcoplasmic reticulum Ca(2+)-ATPase both in a phosphorylating (catalytic) mode and in a nonphosphorylating (modulatory) mode, the latter leading to acceleration of phosphoenzyme turnover (Ca(2)E(1)P --> E(2)P and E(2)P --> E(2) reactions) and Ca(2+) binding (E(2) --> Ca(2)E(1)). In some of the Ca(2+)-ATPase crystal structures, Arg(678) and Glu(439) seem to be involved in the binding of nucleotide or an associated Mg(2+) ion. We have replaced Arg(678), Glu(439), and Gly(438) with alanine to examine their importance for the enzyme cycle and the modulatory effects of ATP and MgATP. The results point to the key role of Arg(678) in nucleotide binding and to the importance of interdomain bonds Glu(439)-Ser(186) and Arg(678)-Asp(203) in stabilizing the E(2)P and E(2) intermediates, respectively. Mutation of Arg(678) had conspicuous effects on ATP/MgATP binding to the E(1) form and ADP binding to Ca(2)E(1)P, as well as ATP/MgATP binding in modulatory modes to E(2)P and E(2), whereas the effects on ATP/MgATP acceleration of the Ca(2)E(1)P --> E(2)P transition were small, suggesting that the nucleotide that accelerates Ca(2)E(1)P --> E(2)P binds differently from that modulating the E(2)P --> E(2) and E(2) --> Ca(2)E(1) reactions. Mutation of Glu(439) hardly affected nucleotide binding to E(1), Ca(2)E(1)P, and E(2), but it led to disruption of the modulatory effect of ATP on E(2)P --> E(2) and acceleration of the latter reaction, indicating that ATP normally modulates E(2)P --> E(2) by interfering with the interaction between Glu(439) and Ser(186). Gly(438) seems to be important for this interaction as well as for nucleotide binding, probably because of its role in formation of the helix containing Glu(439) and Thr(441).     

Binding to serine 65‐phosphorylated ubiquitin primes Parkin for optimal PINK1‐dependent phosphorylation and activation

Mutations in the mitochondrial protein kinase PINK1 are associated with autosomal recessive Parkinson disease (PD). We and other groups have reported that PINK1 activates Parkin E3 ligase activity both directly via phosphorylation of Parkin serine 65 (Ser⁶⁵)—which lies within its ubiquitin‐like domain (Ubl)—and indirectly through phosphorylation of ubiquitin at Ser⁶⁵. How Ser⁶⁵‐phosphorylated ubiquitin (ubiquitin^{Phospho‐Ser65}) contributes to Parkin activation is currently unknown. Here, we demonstrate that ubiquitin^{Phospho‐Ser65} binding to Parkin dramatically increases the rate and stoichiometry of Parkin phosphorylation at Ser⁶⁵ by PINK1 in vitro. Analysis of the Parkin structure, corroborated by site‐directed mutagenesis, shows that the conserved His302 and Lys151 residues play a critical role in binding of ubiquitin^{Phospho‐Ser65}, thereby promoting Parkin Ser⁶⁵ phosphorylation and activation of its E3 ligase activity in vitro. Mutation of His302 markedly inhibits Parkin Ser⁶⁵ phosphorylation at the mitochondria, which is associated with a marked reduction in its E3 ligase activity following mitochondrial depolarisation. We show that the binding of ubiquitin^{Phospho‐Ser65} to Parkin disrupts the interaction between the Ubl domain and C‐terminal region, thereby increasing the accessibility of Parkin Ser⁶⁵. Finally, purified Parkin maximally phosphorylated at Ser⁶⁵ in vitro cannot be further activated by the addition of ubiquitin^{Phospho‐Ser65}. Our results thus suggest that a major role of ubiquitin^{Phospho‐Ser65} is to promote PINK1‐mediated phosphorylation of Parkin at Ser⁶⁵, leading to maximal activation of Parkin E3 ligase activity. His302 and Lys151 are likely to line a phospho‐Ser⁶⁵‐binding pocket on the surface of Parkin that is critical for the ubiquitin^{Phospho‐Ser65} interaction. This study provides new mechanistic insights into Parkin activation by ubiquitin^{Phospho‐Ser65}, which could aid in the development of Parkin activators that mimic the effect of ubiquitin^{Phospho‐Ser65}.