Kinetics of the ceramide kinase inhibitor K1, a suppressor of mast-cell activation

In a previous study, we synthesized a novel inhibitor of ceramide kinase, K1. In this study, we determined that inhibition by K1 is non-competitive and that four intact six-membered rings are important to the inhibitory activity. Furthermore, we identified an effective in vivo concentration for K1, at which it did not influence any cellular lipid synthesis other than that of ceramide 1-phosphate (C1P) using RBL-2H3 cells, and found that K1 suppressed the activation of mast cells.     

Calcitonin, estrogens and the bone

Estrogen deficiency following natural or surgical menopause, is thought to be the main factor leading to postmenopausal bone loss. Furthermore, after estrogen failure a significant reduction of intestinal calcium absorption and a negativization of calcium balance has been observed. The mechanism of estrogen effect on skeletal tissue is not yet fully elucidated. Recently, specific receptors for estrogens in osteoblastic cells have been described; however their low density does not give a full explanation about their functional role. Therefore estrogens act, at least in part, indirectly through calciotropic hormones. In order to further elucidate this issue, we performed some studies in postmenopausal osteoporotic patients and in fertile oophorectomized women. In the first double blind placebo controlled study, after a 1-year estrogen treatment period we observed an increase in bone mineral content in the hormone-treated patients. Furthermore, in all treated patients an improvement of intestinal calcium absorption was detected, while 1,25-dihydroxy-vitamin D serum levels did not show significant changes. To further analyse the relationship between estrogens (E) and calcitonin (CT) in postmenopausal osteoporosis, we performed a double blind placebo controlled study to evaluate the effects of 1-yr estro-progestative treatment on CT secretory reserve, evaluated by calcium infusion test. Blood levels of CT showed a progressive increase during the study period in the hormone-treated group, with a significant increase in the CT response to calcium stimulation test, suggesting a modulation of CT secretion by E. Recently, we performed two studies in fertile oophorectomized women. In the first, we followed longitudinally 24 fertile women for 1 yr. In these patients we measured, before and after oophorectomy, biochemical indexes of bone metabolism and bone mass. During the observation period a significant increase in bone resorption and a significant drop in intestinal calcium absorption was observed. In the second study, performed on 14 women before and 6 months after oophorectomy, a treatment with conjugated estrogens allowed the correction of the primary intestinal defect responsible for the reduced calcium absorption.(ABSTRACT TRUNCATED AT 400 WORDS)     

Identification and functional analysis of the Rz/Rz1-like accessory lysis genes in the membrane-containing bacteriophage PRD1

Bacteriophage PRD1 is a tailless membrane-containing double-stranded (ds) DNA virus infecting a variety of Gram-negative bacteria. In order to affect cell lysis, like most dsDNA phages, PRD1 uses the holin-endolysin system. In this study, we identified two accessory lysis genes, XXXVI and XXXVII , coding for proteins P36 and P37, respectively. Using genetic complementation assays, we show that protein pair P36/P37 is a functional and interchangeable analogue of the Rz/Rz1 of bacteriophage λ. Utilizing molecular biology, electrochemical as well as various microscopic techniques, we characterized the lysis phenotypes of PRD1 host cells infected with mutant viruses. Our results indicate that proteins P36 and P37 confer a competitive advantage to the phage by securing the efficient disruption of the infected cell and consequent release of the phage progeny under less favourable growth conditions. In concordance with prior data and the results obtained in this study, we propose a model explaining the role of Rz/Rz1-like proteins in the lysis process: Rz/Rz1 complexes transform the mechanical stress caused by the holin lesion at the CM to the OM leading to its disintegration. Finally, identification of the Rz / Rz1 -like genes in PRD1 suggests that tailless icosahedral phages are involved in genetic trade with tailed bacteriophages.     

Interaction of a fragment of the cannabinoid CB1 receptor C-terminus with arrestin-2

Desensitization of the cannabinoid CB1 receptor is mediated by the interaction with arrestin. In this study, we report the structural changes of a synthetic diphosphorylated peptide corresponding to residues 419-439 of the CB1 C-terminus upon binding to arrestin-2. This segment is pivotal to the desensitization of CB1. Using high-resolution proton NMR, we observe two helical segments in the bound peptide that are separated by the presence a glycine residue. The binding we observe is with a diphoshorylated peptide, whereas a previous study reported binding of a highly phosphorylated rhodopsin fragment to visual arrestin. The arrestin bound conformations of the peptides are compared.     

Mutational analysis of the phosphorylation sites of the Aie1 (Aurora-C) kinase in vitro

We previously reported two novel serine/threonine kinases, Aie1 (mouse) and AIE2 (human), both later referred to as aurora-C, a newly recognized member of the mitotic aurora kinase family. In the present study, we analyzed the phosphorylation sites of mouse Aie1 by site-directed mutagenesis. Our results showed that protein kinase A (PKA) phosphorylates Aie1 at a threonine residue located at amino acid position 171. The T171A and T175A mutants, in which threonines located at residues 171 and 175 were replaced by alanines, revealed a significant increase in their kinase activities to phosphorylate ACS-1 (Aurora-C substrate 1). In contrast, the double mutant T171A-T175A showed impaired kinase activity. In addition, we had previously identified a PEST-like motif located at the N terminus of Aie1. Mutation analysis in the present study revealed that the quadruple mutant in which the PEST-like motif was mutated significantly abrogated Aie1 kinase activity. This is the first report of the analysis of potential phosphorylation sites of mouse aurora-C in vitro.     

Specific oligomerization of the 5-HT1A receptor in the plasma membrane

In the present study we analyze the oligomerization of the 5-HT1A receptor within living cells at the sub-cellular level. Using a 2-excitation Förster Resonance Energy Transfer (FRET) method combined with spectral microscopy we are able to estimate the efficiency of energy transfer based on donor quenching as well as acceptor sensitization between CFP-and YFP-tagged 5-HT1A receptors at the plasma membrane. Through the analysis of the level of apparent FRET efficiency over the various relative amounts of donor and acceptor, as well as over a range of total surface expressions of the receptor, we verify the specific interaction of these receptors. Furthermore we study the role of acylation in this interaction through measurements of a palmitoylation-deficient 5-HT_1A receptor mutant. Palmitoylation increases the tendency of a receptor to localize in lipid rich microdomains of the plasma membrane. This increases the effective surface density of the receptor and provides for a higher level of stochastic interaction.     

Human Yip1A specifies the localization of Yif1 to the Golgi apparatus

Yip1p and Yif1p are essential for transport from ER to Golgi stack during the early secretory pathway in budding yeast. Here, we report the identification and characterization of human Yif1. Sequence analysis revealed that human Yif1 (HsYif1), like most of the other YIP1 protein family members, contains multiple transmembrane segments. Double immunofluorescence study revealed co-distribution of HsYif1 with Golgi marker such as GS27. To delineate the function of HsYif1, we conducted a yeast two-hybrid assay and identified an interaction between human HsYif1 and HsYip1A, a homolog of yeast Yip1. In addition, our immunoprecipitation pull-down assay validates the interaction between HsYif1 and HsYip1A. Moreover, our immunofluorescence study demonstrates the co-distribution of HsYif1 and HsYip1A. Significantly, over-expression of mutant HsYip1A-lacked cytosolic region disrupts the localization of HsYif1 to the Golgi, suggesting that HsYip1A specifies the localization of HsYif1 to the Golgi. Therefore, we conclude that human Yip1A interacts with and determines the localization of HsYif1 to the Golgi apparatus.     

The E3 ligase Cdh1-anaphase promoting complex operates upstream of the E3 ligase Smurf1 in the control of axon growth

Axon growth is an essential event during brain development and is extremely limited due to extrinsic and intrinsic inhibition in the adult brain. The E3 ubiquitin ligase Cdh1-anaphase promoting complex (APC) has emerged as an important intrinsic suppressor of axon growth. In this study, we identify in rodents the E3 ligase Smurf1 as a novel substrate of Cdh1-APC and that Cdh1 targets Smurf1 for degradation in a destruction box-dependent manner. We find that Smurf1 acts downstream of Cdh1-APC in axon growth and that the turnover of RhoA by Smurf1 is important in this process. In addition, we demonstrate that acute knockdown of Smurf1 in vivo in the developing cerebellar cortex results in impaired axonal growth and migration. Finally, we show that a stabilized form of Smurf1 overrides the inhibition of axon growth by myelin. Taken together, we uncovered a Cdh1-APC/Smurf1/RhoA pathway that mediates axonal growth suppression in the developing mammalian brain.     

Probing the importance and potential roles of the binding of the PH-domain protein Boi1 to acidic phospholipids

Background  

The related proteins Boi1 and Boi2, which appear to promote polarized growth in S. cerevisiae, both contain a PH (pleckstrin homology) and an SH3 (src homology 3) domain. Previously, we gained evidence that a PH domain-bearing segment of Boi1, which we call Boi1-PH, is sufficient and necessary for function. In the current study, we investigate the binding of Boi1's PH domain to the acidic phospholipids PIP₂ (phosphatidylinositol-4,5-bisphosphate) and PS (phosphatidylserine).     

Identification of the amino acid residue of CYP27B1 responsible for binding of 25-hydroxyvitamin D3 whose mutation causes vitamin D-dependent rickets type 1

We previously reported the three-dimensional structure of human CYP27B1 (25-hydroxyvitamin D3 1alpha-hydroxylase) constructed by homology modeling. Using the three-dimensional model we studied the docking of the substrate, 25-hydroxyvitamin D3, into the substrate binding pocket of CYP27B1. In this study, we focused on the amino acid residues whose point mutations cause vitamin D-dependent rickets type 1, especially unconserved residues among mitochondrial CYPs such as Gln65 and Thr409. Recently, we successfully overexpressed mouse CYP27B1 by using a GroEL/ES co-expression system. In a mutation study of mouse CYP27B1 that included spectroscopic analysis, we concluded that in a 1alpha-hydroxylation process, Ser408 of mouse CYP27B1 corresponding to Thr409 of human CYP27B1 forms a hydrogen bond with the 25-hydroxyl group of 25-hydroxyvitamin D3. This is the first report that shows a critical amino acid residue recognizing the 25-hydroxyl group of the vitamin D3.     

Characteristics of the antitumor activities in tumor cells and modulation of the inflammatory response in RAW264.7 cells of a novel antimicrobial peptide, chrysophsin-1, from the red sea bream (Chrysophrys major)

The antimicrobial peptide, chrysophsin-1, exhibits antimicrobial activities with similar efficiencies for both gram-negative and gram-positive bacteria. In this study, we examined the antitumor activity and modulation of the inflammatory response of a synthetic chrysophsin-1 peptide. In vitro results showed that chrysophsin-1 had greater inhibitory effects against human fibrosarcoma (HT-1080), histiocytic lymphoma (U937), and epithelial carcinoma (HeLa) cells. LDH release by HeLa cells was comparable to that of an MTS assay after treatment with 1.5-3 μg/ml chrysophsin-1 for 24 h. Under SEM and TEM observations, we found no intact cell membranes after chrysophsin-1 treatment of HeLa cells for 8 h. The suggested mechanism of the cytotoxic activity of chrysophsin-1 was disruption of cancer cell membranes. In addition, we also examined caspase-3, -8, and -9 activities by Western blotting; the results excluded the participation of apoptosis in chrysophsin-1's effect on HeLa cells. Stimulation by lipopolysaccharide induced tumor necrosis factor (TNF)-α which was able to modulate chrysophsin-1 treatment of RAW264.7 cells and inhibited endogenous TNF-α release but did not block its secretion. With data from this study, we demonstrate that chrysophsin-1 has antimicrobial and antitumor activities and modulates the inflammatory response in RAW264.7 cells.     

Refined physical mapping and genomic structure of the EXTL1 gene

Recently, the EXTL1 gene, a member of the EXT tumor suppressor gene family, has been mapped to 1p36, a chromosome region which is frequently implicated in a wide variety of malignancies, including breast carcinoma, colorectal cancer and neuroblastoma. In this study, we show that the EXTL1 gene is located between the genetic markers D1S511 and D1S234 within 200 kb of the LAP18 gene on chromosome 1p36. 1, a region which has been proposed to harbor a tumor suppressor gene implicated in MYCN-amplified neuroblastomas. In addition, we determined the genomic structure of the EXTL1 gene, revealing that the EXTL1 coding sequence spans 11 exons within a 50-kb region.     

A molecular dynamics study and free energy analysis of complexes between the Mlc1p protein and two IQ motif peptides

The Mlc1p protein from the budding yeast Saccharomyces cerevisiae is a Calmodulin-like protein, which interacts with IQ-motif peptides located at the yeast's myosin neck. In this study, we report a molecular dynamics study of the Mlc1p-IQ2 protein-peptide complex, starting with its crystal structure, and investigate its dynamics in an aqueous solution. The results are compared with those obtained by a previous study, where we followed the solution structure of the Mlc1p-IQ4 protein-peptide complex by molecular dynamics simulations. After the simulations, we performed an interaction free-energy analysis using the molecular mechanics Poisson-Boltzmann surface area approach. Based on the dynamics of the Mlc1p-IQ protein-peptide complexes, the structure of the light-chain-binding domain of myosin V from the yeast S. cerevisiae is discussed.     

Human prohibitin 1 maintains the organization and stability of the mitochondrial nucleoids

Mitochondrial prohibitin (PHB) proteins have diverse functions, such as the regulation of apoptosis and the maintenance of mitochondrial morphology. In this study, we clarified a novel mitochondrial function of PHB1 that regulates the organization and maintenance of mitochondrial DNA (mtDNA). In PHB1-knockdown cells, we found that mtDNA is not stained by fluorescent dyes, such as ethidium bromide and PicoGreen, although the mitochondrial membrane potential still maintains. We also demonstrated that mtDNA, which is predominantly found in the NP-40-insoluble fraction when isolated from normal mitochondria, is partially released into the soluble fraction when isolated from PHB1-knockdown cells, indicating that the organization of the mitochondrial nucleoids has been altered. Furthermore, we found that PHB1 regulates copy number of mtDNA by stabilizing TFAM protein, a known protein component of the mitochondrial nucleoids. However, TFAM does not affect the organization of mtDNA as observed in PHB1-knockdown cells. Taken together, these results demonstrate that PHB1 maintains the organization and copy number of the mtDNA through both TFAM-independent and -dependent pathways.     

Characterization of the interactions between the glycine transporters GLYT1 and GLYT2 and the SNARE protein syntaxin 1A

In this study we have examined the effect of the SNARE protein syntaxin 1A on the glycine transporters GLYT1 and GLYT2. Our results demonstrate a functional and physical interaction between both glycine transporters and syntaxin 1A. Co-transfection of syntaxin 1A with GLYT1 or GLYT2 in COS cells resulted in approximately 40% inhibition in glycine transport. This inhibition was reversed by the syntaxin 1A-binding protein, Munc18. Furthermore, immunoprecipitation studies showed a physical interaction between syntaxin 1A and both transporters in COS cells and in rat brain tissue. Finally, we conclude that this physical interaction resulted in a partial removal of the glycine transporters from the plasma membrane as demonstrated by biotinylation studies.