Novel Hydrolysis-Resistant Analogues of Cyclic ADP-ribose: Modification of the “Northern” Ribose and Calcium Release Activity

Three novel analogues modified in the “northern” ribose (ribose linked to N1 of adenine) of the Ca2+ mobilizing second messenger cyclic adenosine diphosphoribose, termed 2‘ ‘-NH2-cyclic adenosine diphosphoribose, cyclic adenosine diphospho-carbocyclic-ribose, and 8-NH2-cyclic adenosine diphospho-car...

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Veröffentlicht in:	Biochemistry (Easton) 2002-05, Vol.41 (21), p.6744-6751
Hauptverfasser:	Guse, Andreas H, Cakir-Kiefer, Céline, Fukuoka, Masayoshi, Shuto, Satoshi, Weber, Karin, Bailey, Victoria C, Matsuda, Akira, Mayr, Georg W, Oppenheimer, Norman, Schuber, Francis, Potter, Barry V. L
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Schlagworte:	Adenosine Diphosphate Ribose - analogs & derivatives Adenosine Diphosphate Ribose - chemical synthesis Adenosine Diphosphate Ribose - chemistry Adenosine Diphosphate Ribose - pharmacology Biological Transport Calcium - metabolism Cyclic ADP-Ribose - analogs & derivatives Dose-Response Relationship, Drug Humans Hydrolysis Jurkat Cells Kinetics Second Messenger Systems - physiology
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container_end_page	6751
container_issue	21
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container_title	Biochemistry (Easton)
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creator	Guse, Andreas H Cakir-Kiefer, Céline Fukuoka, Masayoshi Shuto, Satoshi Weber, Karin Bailey, Victoria C Matsuda, Akira Mayr, Georg W Oppenheimer, Norman Schuber, Francis Potter, Barry V. L
description	Three novel analogues modified in the “northern” ribose (ribose linked to N1 of adenine) of the Ca2+ mobilizing second messenger cyclic adenosine diphosphoribose, termed 2‘ ‘-NH2-cyclic adenosine diphosphoribose, cyclic adenosine diphospho-carbocyclic-ribose, and 8-NH2-cyclic adenosine diphospho-carbocyclic-ribose, were synthesized (chemoenzymatically and by total synthesis) and spectroscopically characterized, and the pK a values for the 6-amino/imino transition were determined in two cases. The biological activity of these analogues was determined in permeabilized human Jurkat T-lymphocytes. 2‘ ‘-NH2-cyclic adenosine diphosphoribose mediated Ca2+ release was slightly more potent than that of the endogenous cyclic adenosine diphosphoribose in terms of the concentration−reponse relationship. Both compounds released Ca2+ from the same intracellular Ca2+ pool. In addition, the control compound 2‘ ‘-NH2-adenosine diphosphoribose was almost without effect. In contrast, only at much higher concentrations (≥50 μM) did the “northern” carbocyclic analogue, cyclic adenosine diphospho-carbocyclic-ribose, significantly release Ca2+ from permeabilized T cells, whereas the previously reported “southern” carbocyclic analogue, cyclic aristeromycin diphosphoribose, was slightly more active than the endogenous cyclic adenosine diphosphoribose. Likewise, 8-NH2-cyclic adenosine diphospho-carbocyclic-ribose, expected to antagonize Ca2+ release as demonstrated previously for 8-NH2-cyclic adenosine diphosphoribose, did not inhibit cyclic adenosine diphosphoribose mediated Ca2+ release. This indicates that the 2‘ ‘-NH2-group substitutes well for the 2‘ ‘-OH-group it replaces; it may be oriented toward the outside of the putative cyclic adenosine diphosphoribose receptor binding domain and/or it can potentially also engage in H bonding interactions with residues of that domain. In sharp contrast to this, replacement of the endocyclic furanose oxygen atom by CH2 in a carbocyclic system obviously interferes with a crucial element of interaction between cyclic adenosine diphosphoribose and its receptor in T-lymphocytes.
doi_str_mv	10.1021/bi020171b
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L</creator><creatorcontrib>Guse, Andreas H ; Cakir-Kiefer, Céline ; Fukuoka, Masayoshi ; Shuto, Satoshi ; Weber, Karin ; Bailey, Victoria C ; Matsuda, Akira ; Mayr, Georg W ; Oppenheimer, Norman ; Schuber, Francis ; Potter, Barry V. L</creatorcontrib><description>Three novel analogues modified in the “northern” ribose (ribose linked to N1 of adenine) of the Ca2+ mobilizing second messenger cyclic adenosine diphosphoribose, termed 2‘ ‘-NH2-cyclic adenosine diphosphoribose, cyclic adenosine diphospho-carbocyclic-ribose, and 8-NH2-cyclic adenosine diphospho-carbocyclic-ribose, were synthesized (chemoenzymatically and by total synthesis) and spectroscopically characterized, and the pK a values for the 6-amino/imino transition were determined in two cases. The biological activity of these analogues was determined in permeabilized human Jurkat T-lymphocytes. 2‘ ‘-NH2-cyclic adenosine diphosphoribose mediated Ca2+ release was slightly more potent than that of the endogenous cyclic adenosine diphosphoribose in terms of the concentration−reponse relationship. Both compounds released Ca2+ from the same intracellular Ca2+ pool. In addition, the control compound 2‘ ‘-NH2-adenosine diphosphoribose was almost without effect. In contrast, only at much higher concentrations (≥50 μM) did the “northern” carbocyclic analogue, cyclic adenosine diphospho-carbocyclic-ribose, significantly release Ca2+ from permeabilized T cells, whereas the previously reported “southern” carbocyclic analogue, cyclic aristeromycin diphosphoribose, was slightly more active than the endogenous cyclic adenosine diphosphoribose. Likewise, 8-NH2-cyclic adenosine diphospho-carbocyclic-ribose, expected to antagonize Ca2+ release as demonstrated previously for 8-NH2-cyclic adenosine diphosphoribose, did not inhibit cyclic adenosine diphosphoribose mediated Ca2+ release. This indicates that the 2‘ ‘-NH2-group substitutes well for the 2‘ ‘-OH-group it replaces; it may be oriented toward the outside of the putative cyclic adenosine diphosphoribose receptor binding domain and/or it can potentially also engage in H bonding interactions with residues of that domain. 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L</creatorcontrib><title>Novel Hydrolysis-Resistant Analogues of Cyclic ADP-ribose: Modification of the “Northern” Ribose and Calcium Release Activity</title><title>Biochemistry (Easton)</title><addtitle>Biochemistry</addtitle><description>Three novel analogues modified in the “northern” ribose (ribose linked to N1 of adenine) of the Ca2+ mobilizing second messenger cyclic adenosine diphosphoribose, termed 2‘ ‘-NH2-cyclic adenosine diphosphoribose, cyclic adenosine diphospho-carbocyclic-ribose, and 8-NH2-cyclic adenosine diphospho-carbocyclic-ribose, were synthesized (chemoenzymatically and by total synthesis) and spectroscopically characterized, and the pK a values for the 6-amino/imino transition were determined in two cases. The biological activity of these analogues was determined in permeabilized human Jurkat T-lymphocytes. 2‘ ‘-NH2-cyclic adenosine diphosphoribose mediated Ca2+ release was slightly more potent than that of the endogenous cyclic adenosine diphosphoribose in terms of the concentration−reponse relationship. Both compounds released Ca2+ from the same intracellular Ca2+ pool. In addition, the control compound 2‘ ‘-NH2-adenosine diphosphoribose was almost without effect. In contrast, only at much higher concentrations (≥50 μM) did the “northern” carbocyclic analogue, cyclic adenosine diphospho-carbocyclic-ribose, significantly release Ca2+ from permeabilized T cells, whereas the previously reported “southern” carbocyclic analogue, cyclic aristeromycin diphosphoribose, was slightly more active than the endogenous cyclic adenosine diphosphoribose. Likewise, 8-NH2-cyclic adenosine diphospho-carbocyclic-ribose, expected to antagonize Ca2+ release as demonstrated previously for 8-NH2-cyclic adenosine diphosphoribose, did not inhibit cyclic adenosine diphosphoribose mediated Ca2+ release. This indicates that the 2‘ ‘-NH2-group substitutes well for the 2‘ ‘-OH-group it replaces; it may be oriented toward the outside of the putative cyclic adenosine diphosphoribose receptor binding domain and/or it can potentially also engage in H bonding interactions with residues of that domain. 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L</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Novel Hydrolysis-Resistant Analogues of Cyclic ADP-ribose: Modification of the “Northern” Ribose and Calcium Release Activity</atitle><jtitle>Biochemistry (Easton)</jtitle><addtitle>Biochemistry</addtitle><date>2002-05-28</date><risdate>2002</risdate><volume>41</volume><issue>21</issue><spage>6744</spage><epage>6751</epage><pages>6744-6751</pages><issn>0006-2960</issn><eissn>1520-4995</eissn><abstract>Three novel analogues modified in the “northern” ribose (ribose linked to N1 of adenine) of the Ca2+ mobilizing second messenger cyclic adenosine diphosphoribose, termed 2‘ ‘-NH2-cyclic adenosine diphosphoribose, cyclic adenosine diphospho-carbocyclic-ribose, and 8-NH2-cyclic adenosine diphospho-carbocyclic-ribose, were synthesized (chemoenzymatically and by total synthesis) and spectroscopically characterized, and the pK a values for the 6-amino/imino transition were determined in two cases. The biological activity of these analogues was determined in permeabilized human Jurkat T-lymphocytes. 2‘ ‘-NH2-cyclic adenosine diphosphoribose mediated Ca2+ release was slightly more potent than that of the endogenous cyclic adenosine diphosphoribose in terms of the concentration−reponse relationship. Both compounds released Ca2+ from the same intracellular Ca2+ pool. In addition, the control compound 2‘ ‘-NH2-adenosine diphosphoribose was almost without effect. In contrast, only at much higher concentrations (≥50 μM) did the “northern” carbocyclic analogue, cyclic adenosine diphospho-carbocyclic-ribose, significantly release Ca2+ from permeabilized T cells, whereas the previously reported “southern” carbocyclic analogue, cyclic aristeromycin diphosphoribose, was slightly more active than the endogenous cyclic adenosine diphosphoribose. Likewise, 8-NH2-cyclic adenosine diphospho-carbocyclic-ribose, expected to antagonize Ca2+ release as demonstrated previously for 8-NH2-cyclic adenosine diphosphoribose, did not inhibit cyclic adenosine diphosphoribose mediated Ca2+ release. This indicates that the 2‘ ‘-NH2-group substitutes well for the 2‘ ‘-OH-group it replaces; it may be oriented toward the outside of the putative cyclic adenosine diphosphoribose receptor binding domain and/or it can potentially also engage in H bonding interactions with residues of that domain. In sharp contrast to this, replacement of the endocyclic furanose oxygen atom by CH2 in a carbocyclic system obviously interferes with a crucial element of interaction between cyclic adenosine diphosphoribose and its receptor in T-lymphocytes.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>12022878</pmid><doi>10.1021/bi020171b</doi><tpages>8</tpages></addata></record>
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subjects	Adenosine Diphosphate Ribose - analogs & derivatives Adenosine Diphosphate Ribose - chemical synthesis Adenosine Diphosphate Ribose - chemistry Adenosine Diphosphate Ribose - pharmacology Biological Transport Calcium - metabolism Cyclic ADP-Ribose - analogs & derivatives Dose-Response Relationship, Drug Humans Hydrolysis Jurkat Cells Kinetics Second Messenger Systems - physiology
title	Novel Hydrolysis-Resistant Analogues of Cyclic ADP-ribose: Modification of the “Northern” Ribose and Calcium Release Activity
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