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961.
Hayano S Kurosaka H Yanagita T Kalus I Milz F Ishihara Y Islam MN Kawanabe N Saito M Kamioka H Adachi T Dierks T Yamashiro T 《The Journal of biological chemistry》2012,287(15):12217-12229
Cell surface heparan sulfate (HS) is an essential regulator of cell signaling and development. HS traps signaling molecules, like Wnt in the glycosaminoglycan side chains of HS proteoglycans (HSPGs), and regulates their functions. Endosulfatases Sulf1 and Sulf2 are secreted at the cell surface to selectively remove 6-O-sulfate groups from HSPGs, thereby modifying the affinity of cell surface HSPGs for its ligands. This study provides molecular evidence for the functional roles of HSPG sulfation and desulfation in dentinogenesis. We show that odontogenic cells are highly sulfated on the cell surface and become desulfated during their differentiation to odontoblasts, which produce tooth dentin. Sulf1/Sulf2 double null mutant mice exhibit a thin dentin matrix and short roots combined with reduced expression of dentin sialophosphoprotein (Dspp) mRNA, encoding a dentin-specific extracellular matrix precursor protein, whereas single Sulf mutants do not show such defective phenotypes. In odontoblast cell lines, Dspp mRNA expression is potentiated by the activation of the Wnt canonical signaling pathway. In addition, pharmacological interference with HS sulfation promotes Dspp mRNA expression through activation of Wnt signaling. On the contrary, the silencing of Sulf suppresses the Wnt signaling pathway and subsequently Dspp mRNA expression. We also show that Wnt10a protein binds to cell surface HSPGs in odontoblasts, and interference with HS sulfation decreases the binding affinity of Wnt10a for HSPGs, which facilitates the binding of Wnt10a to its receptor and potentiates the Wnt signaling pathway, thereby up-regulating Dspp mRNA expression. These results demonstrate that Sulf-mediated desulfation of cellular HSPGs is an important modification that is critical for the activation of the Wnt signaling in odontoblasts and for production of the dentin matrix. 相似文献
962.
Islam I Dhanoa D Finn J Du P Walker MW Salon JA Zhang J Gluchowski C 《Bioorganic & medicinal chemistry letters》2002,12(13):1767-1769
The discovery of a new class of sulfonamide NPY Y5 receptor antagonists is described. Optimization of this series led to the identification of compounds with high affinity for the hY5 subtype and excellent selectivity over the other NPY receptor subtypes. The SAR for this series was examined and a model for understanding the ligand-receptor interactions was developed. 相似文献
963.
Muhammad Azhar Saba Altaf Islam Uddin Jinbao Cheng Limin Wu Xianhong Tong Weibing Qin Jianqiang Bao 《International journal of biological sciences》2021,17(10):2487
Declined quality and quantity of sperm is currently the major cause of patients suffering from infertility. Male germ cell development is spatiotemporally regulated throughout the whole developmental process. While it has been known that exogenous factors, such as environmental exposure, diet and lifestyle, et al, play causative roles in male infertility, recent progress has revealed abundant genetic mutations tightly associated with defective male germline development. In mammals, male germ cells undergo dramatic morphological change (i.e., nuclear condensation) and chromatin remodeling during post-meiotic haploid germline development, a process termed spermiogenesis; However, the molecular machinery players and functional mechanisms have yet to be identified. To date, accumulated evidence suggests that disruption in any step of haploid germline development is likely manifested as fertility issues with low sperm count, poor sperm motility, aberrant sperm morphology or combined. With the continually declined cost of next-generation sequencing and recent progress of CRISPR/Cas9 technology, growing studies have revealed a vast number of disease-causing genetic variants associated with spermiogenic defects in both mice and humans, along with mechanistic insights partially attained and validated through genetically engineered mouse models (GEMMs). In this review, we mainly summarize genes that are functional at post-meiotic stage. Identification and characterization of deleterious genetic variants should aid in our understanding of germline development, and thereby further improve the diagnosis and treatment of male infertility. 相似文献
964.
David W. Cadotte Rachael Bosma David Mikulis Natalia Nugaeva Karen Smith Ronald Pokrupa Omar Islam Patrick W. Stroman Michael G. Fehlings 《PloS one》2012,7(9)
Introduction
While numerous studies have documented evidence for plasticity of the human brain there is little evidence that the human spinal cord can change after injury. Here, we employ a novel spinal fMRI design where we stimulate normal and abnormal sensory dermatomes in persons with traumatic spinal cord injury and perform a connectivity analysis to understand how spinal networks process information.Methods
Spinal fMRI data was collected at 3 Tesla at two institutions from 38 individuals using the standard SEEP functional MR imaging techniques. Thermal stimulation was applied to four dermatomes in an interleaved timing pattern during each fMRI acquisition. SCI patients were stimulated in dermatomes both above (normal sensation) and below the level of their injury. Sub-group analysis was performed on healthy controls (n = 20), complete SCI (n = 3), incomplete SCI (n = 9) and SCI patients who recovered full function (n = 6).Results
Patients with chronic incomplete SCI, when stimulated in a dermatome of normal sensation, showed an increased number of active voxels relative to controls (p = 0.025). There was an inverse relationship between the degree of sensory impairment and the number of active voxels in the region of the spinal cord corresponding to that dermatome of abnormal sensation (R2 = 0.93, p<0.001). Lastly, a connectivity analysis demonstrated a significantly increased number of intraspinal connections in incomplete SCI patients relative to controls suggesting altered processing of afferent sensory signals.Conclusions
In this work we demonstrate the use of spinal fMRI to investigate changes in spinal processing of somatosensory information in the human spinal cord. We provide evidence for plasticity of the human spinal cord after traumatic injury based on an increase in the average number of active voxels in dermatomes of normal sensation in chronic SCI patients and an increased number of intraspinal connections in incomplete SCI patients relative to healthy controls. 相似文献965.
Z Islam M Gilbert QD Mohammad K Klaij J Li W van Rijs AP Tio-Gillen KA Talukder HJ Willison A van Belkum HP Endtz BC Jacobs 《PloS one》2012,7(8):e43976
Background
Campylobacter jejuni is the predominant antecedent infection in Guillain-Barré syndrome (GBS). Molecular mimicry and cross-reactive immune responses to C. jejuni lipo-oligosaccharides (LOS) precipitate the development of GBS, although this mechanism has not been established in patients from developing countries. We determined the carbohydrate mimicry between C. jejuni LOS and gangliosides, and the cross-reactive antibody response in patients with GBS in Bangladesh.Methodology
Sera from 97 GBS patients, and 120 neurological and family controls were tested for antibody reactivity against LOS from C. jejuni isolates from GBS patients in Bangladesh (BD-07, BD-39, BD-10, BD-67 and BD-94) by enzyme-linked immunosorbent assay (ELISA). Cross-reactivity to LOS was determined by ELISA. The LOS outer core structures of C. jejuni strains associated with GBS/MFS were determined by mass spectrometry.Principle Findings
IgG antibodies to LOS from C. jejuni BD-07, BD-39, BD-10, and BD-67 IgG antibodies were found in serum from 56%, 58%, 14% and 15% of GBS patients respectively, as compared to very low frequency (<3%) in controls (p<0.001). Monoclonal antibodies specific for GM1 and GD1a reacted strongly with LOS from the C. jejuni strains (BD-07 and BD-39). Mass spectrometry analysis confirmed the presence of GM1 and GD1a carbohydrate mimics in the LOS from C. jejuni BD-07 and BD-39. Both BD-10 and BD-67 express the same LOS outer core, which appears to be a novel structure displaying GA2 and GD3 mimicry. Up to 90–100% of serum reactivity to gangliosides in two patients (DK-07 and DK-39) was inhibited by 50 µg/ml of LOS from the autologous C. jejuni isolates. However, patient DK-07 developed an anti-GD1a immune response while patient DK-39 developed an anti-GM1 immune response.Conclusion
Carbohydrate mimicry between C. jejuni LOS and gangliosides, and cross-reactive serum antibody precipitate the majority of GBS cases in Bangladesh. 相似文献966.
967.
Pathways for glucose disposal after meal ingestion in humans 总被引:1,自引:0,他引:1
Woerle HJ Meyer C Dostou JM Gosmanov NR Islam N Popa E Wittlin SD Welle SL Gerich JE 《American journal of physiology. Endocrinology and metabolism》2003,284(4):E716-E725
To characterize postprandial glucose disposal more completely, we used the tritiated water technique, a triple-isotope approach (intravenous [3-H(3)]glucose and [(14)C]bicarbonate and oral [6,6-(2)H(2)]glucose) and indirect calorimetry to assess splanchnic and peripheral glucose disposal, direct and indirect glucose storage, oxidative and nonoxidative glycolysis, and the glucose entering plasma via gluconeogenesis after ingestion of a meal in 11 normal volunteers. During a 6-h postprandial period, a total of approximately 98 g of glucose were disposed of. This was more than the glucose contained in the meal ( approximately 78 g) due to persistent endogenous glucose release ( approximately 21 g): splanchnic tissues initially took up approximately 23 g, and an additional approximately 75 g were removed from the systemic circulation. Direct glucose storage accounted for approximately 32 g and glycolysis for approximately 66 g (oxidative approximately 43 g and nonoxidative approximately 23 g). About 11 g of glucose appeared in plasma as a result of gluconeogenesis. If these carbons were wholly from glucose undergoing glycolysis, only approximately 12 g would be available for indirect pathway glycogen formation. Our results thus indicate that glycolysis is the main initial postprandial fate of glucose, accounting for approximately 66% of overall disposal; oxidation and storage each account for approximately 45%. The majority of glycogen is formed via the direct pathway ( approximately 73%). 相似文献
968.
2,4-Diacetylphloroglucinol (DAPG) produced by Pseudomonas fluorescens, shows toxicity to many microorganisms including fungi, bacteria, and peronosporomycetes. Zoosporogenesis and motility of
zoospores are critical for a complete disease cycle and pathogenicity of the peronosporomycete phytopathogens. The aim of
this study was to test the effects of DAPG and its derivatives on zoosporogenesis and motility of zoospores of a downy mildew
pathogen, Plasmopara viticola, and a damping-off pathogen, Aphanomyces cochlioides. In both cases, DAPG inhibited zoosporogenesis (5 μg/ml) and the motility of zoospores (10 μg/ml) in a dose-dependent manner.
Generally, zoospores became immotile shortly after exposure to DAPG followed by lysis. However, a fraction of DAPG treated
A. cochlioides zoospores formed round cystospores instead of lysis and then germinated with excessively-branched germ tubes. All derivatives
of DAPG had similar inhibitory activities but at varying doses. Among them, 2,4-dipropylphloroglucinol exerted the highest
inhibitory activity against both zoosporogenesis and motility of zoospores. This revealed that the degree of hydrogen atoms
substitution in the benzene ring by acyl groups and the length of substituted acyl groups were related to the level of bioactivity.
This is the first report of inhibitory activities of DAPG and its derivatives against zoosporogenesis and motility of zoospores
of two important peronosporomycete phytopathogens. 相似文献
969.
Dey P Islam A Ahmad F Batra JK 《Biochemical and biophysical research communications》2007,360(4):809-814
Human pancreatic ribonuclease (HPR) and bovine RNase A belong to the RNase A superfamily and possess similar key structural and catalytic residues. Compared to RNase A, HPR has six extra non-catalytic basic residues and high double-stranded RNA (dsRNA) cleavage activity. We mutated four of these basic residues, K6, R32, K62, and K74 to alanine and characterized the variants for function and stability. Only the variant K74A had an altered secondary structure. Whereas R32A and K62A had full catalytic activity, the mutants K6A and K74A had reduced activity on both ssRNA and dsRNA. The mutations of K62 and K74 resulted in reduction in protein stability and DNA double helix unwinding activity of HPR; while substitutions of K6 and R32 did not affect either the stability or helix unwinding activity. The reduced catalytic and DNA melting activities of K74A mutant appear to be an outcome of its altered secondary structure. The basic residues studied here, appear to contribute to the overall stability, folding, and general catalytic activity of HPR. 相似文献
970.
Sea snake (Microcephalophis gracilis) hemoglobin: Primary structure and relationships to other forms
alia Islam Bengt Persson Zafar H. Zaidi Hans J?rnvall 《Journal of Protein Chemistry》1990,9(5):533-541
The hemoglobin of the sea snakeMicrocephalophis gracilis was purified and the primary structure of the and chains determined. This is the first sea snake hemoglobin structure characterized, and apparently also the first complete structure of any snake hemoglobin (an chain of a viper was known), allowing judgments of reptilian variants. Variations between the sea snake form and other reptilian forms are large (52–65 differences for the chains), of similar order as those between the sea snake and avian (56–65 differences) or human (58 differences) forms. Functionally, 19 residues at / contact areas and 7 at heme contacts are exchanged in relation to the human and chains. Four positions of the sea snake hemoglobin contain residues thus far unique to this form. However, all replacements appear compatible with conserved overall functional properties. 相似文献