Soon‐Ai Kim scite author profile

Adenosine A(3) receptors are of interest in the treatment of cardiac ischemia, inflammation, and neurodegenerative diseases. In an effort to create a unique receptor mutant that would be activated by tailor-made synthetic ligands, we mutated the human A(3) receptor at the site of a critical His residue in TM7, previously proposed to be involved in ligand recognition through interaction with the ribose moiety. The H272E mutant receptor displayed reduced affinity for most of the uncharged A(3) receptor agonists and antagonists examined. For example, the nonselective agonist 1a was 19-fold less potent at the mutant receptor than at the wild-type receptor. The introduction of an amino group on the ribose moiety of adenosine resulted in either equipotency or enhanced binding affinity at the H272E mutant relative to wild-type A(3) receptors, depending on the position of the amino group. 3'-Amino-3'-deoxyadenosine proved to be 7-fold more potent at the H272E mutant receptor than at the wild-type receptor, while the corresponding 2'- and 5'-amino analogues did not display significantly enhanced affinities. An 3'-amino-N(6)-iodobenzyl analogue showed only a small enhancement at the mutant (K(i) = 320 nM) vs wild-type receptors. The 3'-amino group was intended for a direct electrostatic interaction with the negatively charged ribose-binding region of the mutant receptor, yet molecular modeling did not support this notion. This design approach is an example of engineering the structure of mutant receptors to recognize synthetic ligands for which they are selectively matched on the basis of molecular complementarity between the mutant receptor and the ligand. We have termed such engineered receptors "neoceptors", since the ligand recognition profile of such mutant receptors need not correspond to the profile of the parent, native receptor.

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Curcumin induces pro-apoptotic endoplasmic reticulum stress in human leukemia HL-60 cells

Pae

Jeong

et al. 2007

Biochemical and Biophysical Research Communications

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Structure−Activity Relationships at Human and Rat A_2B Adenosine Receptors of Xanthine Derivatives Substituted at the 1-, 3-, 7-, and 8-Positions

et al. 2002

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In the search for improved selective antagonist ligands of the A2B adenosine receptor, which have the potential as antiasthmatic or antidiabetic drugs, we have synthesized and screened a variety of alkylxanthine derivatives substituted at the 1-, 3-, 7-, and 8-positions. Competition for 125I-ABOPX (125I-3-(4-amino-3-iodobenzyl)-8-(phenyl-4-oxyacetate)-1-propylxanthine) binding in membranes of stably transfected HEK-293 cells revealed uniformly higher affinity (<10-fold) of these xanthines for human than for rat A2B adenosine receptors. Binding to rat brain membranes expressing A1 and A2A adenosine receptors revealed greater A2B selectivity over A2A than A1 receptors. Substitution at the 1-position with 2-phenylethyl (or alkyl/olefinic groups) and at N-3 with hydrogen or methyl favored A2B selectivity. Relative to enprofylline 2b, pentoxifylline 35 was equipotent and 1-propylxanthine 3 was >13-fold more potent at human A2B receptors. Most N-7 substituents did not enhance affinity over hydrogen, except for 7-(2-chloroethyl), which enhanced the affinity of theophylline by 6.5-fold to 800 nM. The A2B receptor affinity-enhancing effects of 7-(2-chloroethyl) vs 7-methyl were comparable to the known enhancement produced by an 8-aryl substitution. Among 8-phenyl analogues, a larger alkyl group at the 1-position than at the 3-position favored affinity at the human A2B receptor, as indicated by 1-allyl-3-methyl-8-phenylxanthine, with a K(i) value of 37 nM. Substitution on the 8-phenyl ring indicated that an electron-rich ring was preferred for A2B receptor binding. In conclusion, new leads for the design of xanthines substituted in the 1-, 3-, 7-, and 8-positions as A2B receptor-selective antagonists have been identified.

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Soon‐Ai Kim

Neoceptor Concept Based on Molecular Complementarity in GPCRs: A Mutant Adenosine A₃ Receptor with Selectively Enhanced Affinity for Amine-Modified Nucleosides

Curcumin induces pro-apoptotic endoplasmic reticulum stress in human leukemia HL-60 cells

Structure−Activity Relationships at Human and Rat A_2B Adenosine Receptors of Xanthine Derivatives Substituted at the 1-, 3-, 7-, and 8-Positions

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Soon‐Ai Kim

Neoceptor Concept Based on Molecular Complementarity in GPCRs: A Mutant Adenosine A3 Receptor with Selectively Enhanced Affinity for Amine-Modified Nucleosides

Curcumin induces pro-apoptotic endoplasmic reticulum stress in human leukemia HL-60 cells

Structure−Activity Relationships at Human and Rat A2B Adenosine Receptors of Xanthine Derivatives Substituted at the 1-, 3-, 7-, and 8-Positions

Contact Info

Product

Resources

About

Neoceptor Concept Based on Molecular Complementarity in GPCRs: A Mutant Adenosine A₃ Receptor with Selectively Enhanced Affinity for Amine-Modified Nucleosides

Structure−Activity Relationships at Human and Rat A_2B Adenosine Receptors of Xanthine Derivatives Substituted at the 1-, 3-, 7-, and 8-Positions