Inhibition of protein synthesis by aminoglycoside–arginine conjugates

MARJOLAINE CARRIERE; VEERAPPAN VIJAYABASKAR; DREW APPLEFIELD; ISABELLE HARVEY; PHILIPPE GARNEAU; JON LORSCH; AVIVA LAPIDOT; JERRY PELLETIER

doi:10.1017/S1355838202029059

Abstract

Inhibition of translation by small molecule ligands has proven to be a useful tool for understanding this complex cellular mechanism, as well as providing drugs of significant medical importance. Many small molecule ligands inhibit translation by binding to RNA or RNA/protein components of the ribosomal subunits and usurping their function. A class of peptidomimetics [aminoglycoside–arginine conjugates (AAC)] has recently been designed to inhibit HIV TAR/tat interaction and in experiments aimed at assessing the inhibitory effects of AACs on TAR-containing transcripts, we found that AACs are general inhibitors of translation. Experiments reported herein aim at characterizing these novel properties of AACs. We find that AACs are inhibitors of eukaryotic and prokaryotic translation and exert their effects by blocking peptide chain elongation. Structure/activity relationship studies suggest that inhibition of translation by AACs is directly related to the number of arginine groups present on the aminoglycoside backbone and to the nature of the core aminoglycoside. AACs are therefore attractive tools for understanding and probing ribosome function.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Borkow, Gadi Lara, Humberto Herman and Lapidot, Aviva 2003. Mutations in gp41 and gp120 of HIV-1 isolates resistant to hexa-arginine neomycin B conjugate. Biochemical and Biophysical Research Communications, Vol. 312, Issue. 4, p. 1047.

Borkow, Gadi Vijayabaskar, Veerappan Lara, Humberto Herman Kalinkovich, Alexander and Lapidot, Aviva 2003. Structure–activity relationship of neomycin, paromomycin, and neamine–arginine conjugates, targeting HIV-1 gp120–CXCR4 binding step. Antiviral Research, Vol. 60, Issue. 3, p. 181.

Itoh, Atsuko Tanahashi, Takao Nagakura, Naotaka Takenaka, Yukiko Chen, Cheng-Chang and Pelletier, Jerry 2004. Flavonoid Glycosides from Adina racemosa and Their Inhibitory Activities on Eukaryotic Protein Synthesis. Journal of Natural Products, Vol. 67, Issue. 3, p. 427.

Muhammad, Ilias Bedir, Erdal Khan, Shabana I. Tekwani, Babu L. Khan, Ikhlas A. Takamatsu, Satoshi Pelletier, Jerry and Walker, Larry A. 2004. A New Antimalarial Quassinoid fromSimabaorinocensis. Journal of Natural Products, Vol. 67, Issue. 5, p. 772.

CHAN, JENNY KHAN, SHAKILA N. HARVEY, ISABELLE MERRICK, WILLIAM and PELLETIER, JERRY 2004. Eukaryotic protein synthesis inhibitors identified by comparison of cytotoxicity profiles. RNA, Vol. 10, Issue. 3, p. 528.

Lapidot, Aviva Vijayabaskar, Veerappan Litovchick, Alexander Yu, Jingua and James, Thomas L. 2004. Structure–activity relationships of aminoglycoside‐arginine conjugates that bind HIV‐1 RNAs as determined by fluorescence and NMR spectroscopy. FEBS Letters, Vol. 577, Issue. 3, p. 415.

Ahn, Dae-Ro and Yu, Jaehoon 2005. Library construction of neomycin–dipeptide heteroconjugates and selection against RRE RNA. Bioorganic & Medicinal Chemistry, Vol. 13, Issue. 4, p. 1177.

Willis, Bert and Arya, Dev P. 2006. Advances in Carbohydrate Chemistry and Biochemistry Volume 60. Vol. 60, Issue. , p. 251.

Kaul, Malvika Barbieri, Christopher M. and Pilch, Daniel S. 2006. Aminoglycoside-Induced Reduction in Nucleotide Mobility at the Ribosomal RNA A-Site as a Potentially Key Determinant of Antibacterial Activity. Journal of the American Chemical Society, Vol. 128, Issue. 4, p. 1261.

Berchanski, Alexander and Lapidot, Aviva 2008. Bacterial RNase P RNA Is a Drug Target for Aminoglycoside−Arginine Conjugates. Bioconjugate Chemistry, Vol. 19, Issue. 9, p. 1896.

Lapidot, Aviva Berchanski, Alexander and Borkow, Gadi 2008. Insight into the mechanisms of aminoglycoside derivatives interaction with HIV‐1 entry steps and viral gene transcription. The FEBS Journal, Vol. 275, Issue. 21, p. 5236.

Kawamoto, Steven A. Sudhahar, Christopher G. Hatfield, Cynthia L. Sun, Jing Behrman, Edward J. and Gopalan, Venkat 2008. Studies on the mechanism of inhibition of bacterial ribonuclease P by aminoglycoside derivatives. Nucleic Acids Research, Vol. 36, Issue. 2, p. 697.

Bera, Smritilekha Zhanel, George G. and Schweizer, Frank 2011. Synthesis and antibacterial activity of amphiphilic lysine-ligated neomycin B conjugates. Carbohydrate Research, Vol. 346, Issue. 5, p. 560.

Mousseau, Guillaume and Valente, Susana 2012. Strategies to Block HIV Transcription: Focus on Small Molecule Tat Inhibitors. Biology, Vol. 1, Issue. 3, p. 668.

Degtyareva, Natalya N. Gong, Changjun Story, Sandra Levinson, Nathanael S. Oyelere, Adegboyega K. Green, Keith D. Garneau-Tsodikova, Sylvie and Arya, Dev P. 2017. Antimicrobial Activity, AME Resistance, and A-Site Binding Studies of Anthraquinone–Neomycin Conjugates. ACS Infectious Diseases, Vol. 3, Issue. 3, p. 206.

Thamban Chandrika, Nishad and Garneau-Tsodikova, Sylvie 2018. Comprehensive review of chemical strategies for the preparation of new aminoglycosides and their biological activities. Chemical Society Reviews, Vol. 47, Issue. 4, p. 1189.

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Inhibition of protein synthesis by aminoglycoside–arginine conjugates

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Inhibition of protein synthesis by aminoglycoside–arginine conjugates

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