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131.
Frerker N Wagner L Wolf R Heiser U Hoffmann T Rahfeld JU Schade J Karl T Naim HY Alfalah M Demuth HU von Hörsten S 《Peptides》2007,28(2):257-268
N-terminal truncation of NPY has important physiological consequences, because the truncated peptides lose their capability to activate the Y1-receptor. The sources of N-terminally truncated NPY and related peptides are unknown and several proline specific peptidases may be involved. First, we therefore provide an overview on the peptidases, belonging to structural and functional homologues of dipeptidyl peptidase 4 (DP4) as well as aminopeptidase P (APP) and thus, represent potential candidates of NPY cleavage in vivo. Second, applying selective inhibitors against DP4, DP8/9 and DP2, respectively, the enzymatic distribution was analyzed in brain extracts from wild type and DP4 deficient F344 rat substrains and human plasma samples in activity studies as well as by matrix assisted laser desorption/ionisation-time of flight (MALDI-TOF)-mass spectrometry. Third, co-transfection of Cos-1 cells with Dpp4 and Npy followed by confocal lasermicroscopy illustrated that hNPY-dsRed1-N1 was transported in large dense core vesicles towards the membrane while rDP4-GFP-C1 was transported primarily in different vesicles thereby providing no clear evidence for co-localization of NPY and DP4. Nevertheless, the review and experimental results of activity and mass spectrometry studies support the notion that at least five peptidases (DP4, DP8, DP9, XPNPEP1, XPNPEP2) are potentially involved in NPY cleavage while the serine protease DP4 (CD26) could be the principal peptidase involved in the N-terminal truncation of NPY. However, DP8 and DP9 are also capable of cleaving NPY, whereas no cleavage could be demonstrated for DP2. 相似文献
132.
133.
Johnson JE Goulding RE Ding Z Partovi A Anthony KV Beaulieu N Tazmini G Cornell RB Kay RJ 《The Biochemical journal》2007,406(2):223-236
RasGRPs (guanine-nucleotide-releasing proteins) are exchange factors for membrane-bound GTPases. All RasGRP family members contain C1 domains which, in other proteins, bind DAG (diacylglycerol) and thus mediate the proximal signal-transduction events induced by this lipid second messenger. The presence of C1 domains suggests that all RasGRPs could be regulated by membrane translocation driven by C1-DAG interactions. This has been demonstrated for RasGRP1 and RasGRP3, but has not been tested directly for RasGRP2, RasGRP4alpha and RasGRP4beta. Sequence alignments indicate that all RasGRP C1 domains have the potential to bind DAG. In cells, the isolated C1 domains of RasGRP1, RasGRP3 and RasGRP4alpha co-localize with membranes and relocalize in response to DAG, whereas the C1 domains of RasGRP2 and RasGRP4beta do not. Only the C1 domains of RasGRP1, RasGRP3 and RasGRP4alpha recognize DAG as a ligand within phospholipid vesicles and do so with differential affinities. Other lipid second messengers were screened as ligands for RasGRP C1 domains, but none was found to serve as an alternative to DAG. All of the RasGRP C1 domains bound to vesicles which contained a high concentration of anionic phospholipids, indicating that this could provide a DAG-independent mechanism for membrane binding by C1 domains. This concept was supported by demonstrating that the C1 domain of RasGRP2 could functionally replace the membrane-binding role of the C1 domain within RasGRP1, despite the inability of the RasGRP2 C1 domain to bind DAG. The RasGRP4beta C1 domain was non-functional when inserted into either RasGRP1 or RasGRP4, implying that the alternative splicing which produces this C1 domain eliminates its contribution to membrane binding. 相似文献
134.
135.
Deschamps JD Gautschi JT Whitman S Johnson TA Gassner NC Crews P Holman TR 《Bioorganic & medicinal chemistry》2007,15(22):6900-6908
Human lipoxygenases (hLO) have been implicated in a variety of diseases and cancers and each hLO isozyme appears to have distinct roles in cellular biology. This fact emphasizes the need for discovering selective hLO inhibitors for both understanding the role of specific lipoxygenases in the cell and developing pharmaceutical therapeutics. To this end, we have modified a known lipoxygenase assay for high-throughput (HTP) screening of both the National Cancer Institute (NCI) and the UC Santa Cruz marine extract library (UCSC-MEL) in search of platelet-type 12-hLO (12-hLO) selective inhibitors. The HTP screen led to the characterization of five novel 12-hLO inhibitors from the NCI repository. One is the potent but non-selective michellamine B, a natural product, anti-viral agent. The other four compounds were selective inhibitors against 12-hLO, with three being synthetic compounds and one being alpha-mangostin, a natural product, caspase-3 pathway inhibitor. In addition, a selective inhibitor was isolated from the UCSC-MEL (neodysidenin), which has a unique chemical scaffold for a hLO inhibitor. Due to the unique structure of neodysidenin, steady-state inhibition kinetics were performed and its mode of inhibition against 12-hLO was determined to be competitive (K(i)=17microM) and selective over reticulocyte 15-hLO-1 (K(i) 15-hLO-1/12-hLO>30). 相似文献
136.
137.
Insulin-like growth factor binding protein-2 as a regulator of IGF actions in CNS: implications in multiple sclerosis 总被引:3,自引:0,他引:3
Insulin-like growth factors (IGFs) are indispensable peptide hormones for proper development of the central nervous system (CNS). Because IGF-1 exhibits neuroprotective and myelinogenetic effects, it possesses therapeutic potential in treating neurodegenerative demyelinating diseases such as multiple sclerosis (MS). However, IGF actions are largely dependant on high-affinity regulatory IGF binding proteins (IGFBPs), which are likely to interfere with therapeutic attempts at elevating IGF-1 levels in the CNS. In particular, IGFBP-2 plays a dominant role in IGF regulation in the CNS and is upregulated in several pathological conditions, including MS. The question remains as to whether IGFBPs should be considered "interfering" components of IGF treatment strategies or might possibly be utilized to clinical advantage. This review discusses our current understanding of biological functions of IGFBP-2 in the CNS and its implications in the demyelinating disease MS. 相似文献
138.
Enhanced cadmium-induced testicular necrosis and renal proximal tubule damage caused by gene-dose increase in a Slc39a8-transgenic mouse line 总被引:4,自引:0,他引:4
Wang B Schneider SN Dragin N Girijashanker K Dalton TP He L Miller ML Stringer KF Soleimani M Richardson DD Nebert DW 《American journal of physiology. Cell physiology》2007,292(4):C1523-C1535
Resistance to cadmium (Cd)-induced testicular necrosis is an autosomal recessive trait defined as the Cdm locus. Using positional cloning, we previously identified the Slc39a8 (encoding an apical-surface ZIP8 transporter protein) as the gene most likely responsible for the phenotype. In situ hybridization revealed that endothelial cells of the testis vasculature express high ZIP8 levels in two sensitive inbred mouse strains and negligible amounts in two resistant strains. In the present study, we isolated a 168.7-kb bacterial artificial chromosome (BAC), carrying only the Slc39a8 gene, from a Cd-sensitive 129/SvJ BAC library and generated BAC-transgenic mice. The BTZIP8-3 line, having three copies of the 129/SvJ Slc39a8 gene inserted into the Cd-resistant C57BL/6J genome (having its normal two copies of the Slc39a8 gene), showed tissue-specific ZIP8 mRNA expression similar to wild-type mice, mainly in lung, testis, and kidney. The 2.5-fold greater expression paralleled the fact that the BTZIP8-3 line has five copies, whereas wild-type mice have two copies, of the Slc39a8 gene. The ZIP8 mRNA and protein localized especially to endothelial cells of the testis vasculature in BTZIP8-3 mice. Cd treatment reversed Cd resistance (seen in nontransgenic littermates) to Cd sensitivity in BTZIP8-3 mice; reversal of the testicular necrosis phenotype confirms that Slc39a8 is unequivocally the Cdm locus. ZIP8 also localized specifically to the apical surface of proximal tubule cells in the BTZIP8-3 kidney. Cd treatment caused acute renal failure and signs of proximal tubular damage in the BTZIP8-3 but not nontransgenic littermates. BTZIP8-3 mice should be a useful model for studying Cd-induced disease in kidney. kidney; testis; ZIP8; bacterial artificial chromosome 相似文献
139.
Wegmeyer H Egea J Rabe N Gezelius H Filosa A Enjin A Varoqueaux F Deininger K Schnütgen F Brose N Klein R Kullander K Betz A 《Neuron》2007,55(5):756-767
Neuronal network formation in the developing nervous system is dependent on the accurate navigation of nerve cell axons and dendrites, which is controlled by attractive and repulsive guidance cues. Ephrins and their cognate Eph receptors mediate many repulsive axonal guidance decisions by intercellular interactions resulting in growth cone collapse and axon retraction of the Eph-presenting neuron. We show that the Rac-specific GTPase-activating protein alpha2-chimaerin binds activated EphA4 and mediates EphA4-triggered axonal growth cone collapse. alpha-Chimaerin mutant mice display a phenotype similar to that of EphA4 mutant mice, including aberrant midline axon guidance and defective spinal cord central pattern generator activity. Our results reveal an alpha-chimaerin-dependent signaling pathway downstream of EphA4, which is essential for axon guidance decisions and neuronal circuit formation in vivo. 相似文献
140.
FRIZZY PANICLE Drives Supernumerary Spikelets in Bread Wheat 总被引:1,自引:0,他引:1
Oxana Dobrovolskaya Caroline Pont Richard Sibout Petr Martinek Ekaterina Badaeva Florent Murat Audrey Chosson Nobuyoshi Watanabe Elisa Prat Nadine Gautier Véronique Gautier Charles Poncet Yuriy L. Orlov Alexander A. Krasnikov Hélène Bergès Elena Salina Lyudmila Laikova Jerome Salse 《Plant physiology》2015,167(1):189-199