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Crystal structure of MraY bound to carbacaprazamycin, 6OYH

1 Introduction
- 1.1 MraY
- 1.2 Carbacaprazamycin
2 Function
3 Structure
4 Relevance
5 3D related structures

Introduction

MraY

MraY, called also phospho-N-acetylmuramoyl-pentapeptide-transferase or UDP-MurNAc-pentapeptide phosphotransferase, with EC number 2.7.8.13, is an integral membrane enzyme involved in peptidoglycan biosynthesis ^[1] ^[2].MraY is encoded by the mraY gene and belongs to a subfamily of the polyprenyl-phosphate N-acetyl hexosamine 1-phosphate transferase (PNPT) superfamily ^[3]. MRAY is a promising candidate for the development of new antibiotics. In fact, it is the target of five classes of natural nucleoside inhibitors with potent antibacterial activity: the liposidomycins/caprazamycins, capuramycins, mureidomycins, muraymycins, and tunicamycins ^[2] ^[4].The structure presented in this page correspond to the MraY protein from the thermophile Aquifex aeolicus strain VF5 (MraYAA) in complex with carbacaprazamycin.MraYAA was expressed in Escherichia coli.

Carbacaprazamycin

is a chemically stable analog of caprazamycin nucleoside inhibitors ^[5]. One particular characteristic of caprazamycin nucleoside inhibitors is that they have uridine on their structure. It has been shown that Mray inhibitors contains a uridine moiety ^[6]

Function

bacteria ^[7]. The cell wall provides bacteria a structural support and protection. In particular, it allows bacteria to maintain their cell shape at different osmotic pressures ^[8]. Peptidoglycan is a cross-linked polymer of carbohydrates an amino acids and due to its biological relevance in Bacteria, it has been a major target for antibiotics ^[3] ^[7].

Peptidoglycan biosynthesis involves three main stages. MraY is responsible for the second stage. First, the peptidoglycan precursor UDP-Nacetylmuramoyl (MurNAc)–pentapeptide is synthesized in the cytosol. Second, this hydrophilic precursor is attached to a lipid carrier, and the complex lipid carrier-precursor is transported, through the membrane, to the periplasm. Third, the peptidoglycan precursors are polymerized to form the cell wall. MraY catalyzes the transfer of phospho-MurNAc-pentapeptide from hydrophilic substrate UDP-MurNAc-pentapeptide to the lipid carier (C55-P) in the presence of a Mg2+ cofactor. The product is the undecaprenyl-pyrophosphoryl-MurNAcpentapeptide, also known as lipid I ^[3] ^[6] ^[9].

Structure

is a dimeric membrane-bound enzyme, for which the N and the C termini are located on the periplasmic side. This protein is made of four extracellular loops, five cytoplasmic loops (named A,B … and E) and ten transmembrane helices named TM1 to TM10. Though, TM9 is cleaved by a glycin residue into two helical segments named TM9a and TM9b. Furthermore, there is an additional helix between TM9b and TM10, which is only 11 residues long and is called TM9c. TM9c contains a (H324,325 and 326) which plays a role in the enzyme’s substrat selectivity and is a part of the catalytic site ^[1]. They intereact with carbacaprazamycin, and also with other inhibitors such as muraymycin D2 (MD2) . This small loop binds two Ni2+ ions, one on the two first histidines and the other one on the last one. Another part of this site is the residues corresponding to ^[4].TM5–TM10 and loops C and D also play a role in the catalytic site and contain many polar and charged amino acids residues ^[1]. Also, some polar and charged amino acids on TM9b and loop E are pointing toward the active site, making it even more hydrophilic.

is made of uridine, 5-aminoribosyl, diazepanone, and aliphatic tail moieties. The diazepanone ring system makes relatively few interactions with the protein. Carbacapzazamycin contains an uridine binding pocket which is formed by amino acid residues in Loop C ( ). This pocket is capped off by a π–π stacking interaction with in Loop D. forms an additional hydrogen bond with the uracil moiety. Next to the uridine binding site, there is a second binding pocket lined with amino acid residues, called the uridine-adjacent pocket. The 5-aminoribose moiety of carbacaprazamycin forms an extensive hydrogen bond network in the uridine-adjacent pocket ^[5] ^[6].

Relevance

Drug resistant bacteria are the cause of death of millions of people worldwide. In the USA alone, hospital infections associated with antibiotic-resistant pathogens cause 99 000 deaths per year^[10]. The development of new antibiotics with new mechanism of action is urgent. Structural analysis of the binding of carbacaprazamycin to MraY provides a better understanding of the chemical logic of MraY inhibition, which can help in the development of novel approaches for the design of antibiotics targeting MraY.

3D related structures

4j72:Crystal Structure of polyprenyl-phosphate N-acetyl hexosamine 1-phosphate transferase (MraY)
6oyz:Crystal structure of MraY bound to capuramycin
5ckr:Crystal Structure of MraY in complex with Muraymycin D2
6oz6:Crystal structure of MraY bound to 3'-hydroxymureidomycin A
5jnq:MraY tunicamycin complex

This is a sample scene created with SAT to by Group, and another to make of the protein. You can make your own scenes on SAT starting from scratch or loading and editing one of these sample scenes.

References

↑ ^1.0 ^1.1 ^1.2 Hering J, Dunevall E, Ek M, Branden G. Structural basis for selective inhibition of antibacterial target MraY, a membrane-bound enzyme involved in peptidoglycan synthesis. Drug Discov Today. 2018 Jul;23(7):1426-1435. doi: 10.1016/j.drudis.2018.05.020., Epub 2018 May 18. PMID:29778697 doi:http://dx.doi.org/10.1016/j.drudis.2018.05.020
↑ ^2.0 ^2.1 Koppermann S, Ducho C. Natural Products at Work: Structural Insights into Inhibition of the Bacterial Membrane Protein MraY. Angew Chem Int Ed Engl. 2016 Sep 19;55(39):11722-4. doi: 10.1002/anie.201606396. , Epub 2016 Aug 11. PMID:27511599 doi:http://dx.doi.org/10.1002/anie.201606396
↑ ^3.0 ^3.1 ^3.2 Chung BC, Zhao J, Gillespie RA, Kwon DY, Guan Z, Hong J, Zhou P, Lee SY. Crystal structure of MraY, an essential membrane enzyme for bacterial cell wall synthesis. Science. 2013 Aug 30;341(6149):1012-6. doi: 10.1126/science.1236501. PMID:23990562 doi:10.1126/science.1236501
↑ ^4.0 ^4.1 Koppermann S, Cui Z, Fischer PD, Wang X, Ludwig J, Thorson JS, Van Lanen SG, Ducho C. Insights into the Target Interaction of Naturally Occurring Muraymycin Nucleoside Antibiotics. ChemMedChem. 2018 Apr 23;13(8):779-784. doi: 10.1002/cmdc.201700793. Epub 2018, Mar 23. PMID:29438582 doi:http://dx.doi.org/10.1002/cmdc.201700793
↑ ^5.0 ^5.1 Ichikawa S, Yamaguchi M, Hsuan LS, Kato Y, Matsuda A. Carbacaprazamycins: Chemically Stable Analogues of the Caprazamycin Nucleoside Antibiotics. ACS Infect Dis. 2015 Apr 10;1(4):151-6. doi: 10.1021/id5000376. Epub 2015 Feb 19. PMID:27622529 doi:http://dx.doi.org/10.1021/id5000376
↑ ^6.0 ^6.1 ^6.2 Mashalidis EH, Kaeser B, Terasawa Y, Katsuyama A, Kwon DY, Lee K, Hong J, Ichikawa S, Lee SY. Chemical logic of MraY inhibition by antibacterial nucleoside natural products. Nat Commun. 2019 Jul 2;10(1):2917. doi: 10.1038/s41467-019-10957-9. PMID:31266949 doi:http://dx.doi.org/10.1038/s41467-019-10957-9
↑ ^7.0 ^7.1 Winn M, Goss RJ, Kimura K, Bugg TD. Antimicrobial nucleoside antibiotics targeting cell wall assembly: recent advances in structure-function studies and nucleoside biosynthesis. Nat Prod Rep. 2010 Feb;27(2):279-304. doi: 10.1039/b816215h. Epub 2009 Dec 16. PMID:20111805 doi:http://dx.doi.org/10.1039/b816215h
↑ Romaniuk JA, Cegelski L. Bacterial cell wall composition and the influence of antibiotics by cell-wall and whole-cell NMR. Philos Trans R Soc Lond B Biol Sci. 2015 Oct 5;370(1679). pii: rstb.2015.0024., doi: 10.1098/rstb.2015.0024. PMID:26370936 doi:http://dx.doi.org/10.1098/rstb.2015.0024
↑ Bouhss A, Trunkfield AE, Bugg TD, Mengin-Lecreulx D. The biosynthesis of peptidoglycan lipid-linked intermediates. FEMS Microbiol Rev. 2008 Mar;32(2):208-33. doi: 10.1111/j.1574-6976.2007.00089.x., Epub 2007 Dec 10. PMID:18081839 doi:http://dx.doi.org/10.1111/j.1574-6976.2007.00089.x
↑ Aslam B, Wang W, Arshad MI, Khurshid M, Muzammil S, Rasool MH, Nisar MA, Alvi RF, Aslam MA, Qamar MU, Salamat MKF, Baloch Z. Antibiotic resistance: a rundown of a global crisis. Infect Drug Resist. 2018 Oct 10;11:1645-1658. doi: 10.2147/IDR.S173867., eCollection 2018. PMID:30349322 doi:http://dx.doi.org/10.2147/IDR.S173867

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@@ Line 12: / Line 12: @@
 <scene name='42/421575/Carbacaprazamycin/1'>Carbacaprazamycin</scene> is a chemically stable analog of caprazamycin nucleoside inhibitors <ref name="more1">DOI:10.1021/id5000376</ref>. One particular characteristic of caprazamycin nucleoside inhibitors is that they have uridine on their structure. It has been shown that Mray inhibitors contains a uridine moiety <ref name="seven">PMID:31266949</ref>
-== Relevance  ==
-Drug resistant bacteria are the cause of death of millions of people worldwide. In the USA alone, hospital infections associated with antibiotic-resistant pathogens cause 99 000 deaths per year<ref name="more2">PMID:30349322</ref>. The development of new antibiotics with new mechanism of action is urgent. Structural analysis of the binding of carbacaprazamycin to MraY provides a better understanding of the chemical logic of MraY inhibition, which can help in the development of novel approaches for the design of antibiotics targeting MraY.
 = Function =
@@ Line 27: / Line 23: @@
 <scene name='42/421575/Carbacaprazamycin/1'>Carbacaprazamycin</scene> is made of uridine, 5-aminoribosyl, diazepanone, and aliphatic tail moieties. The diazepanone ring system makes relatively few interactions with the protein. Carbacapzazamycin contains an uridine binding pocket which is formed by amino acid residues in Loop C ( <scene name='42/421575/Binding_site/1'>G194, L195, and D196</scene>). This pocket is capped off by a π–π stacking interaction with <scene name='42/421575/Binding_site/1'>F262</scene> in Loop D. <scene name='42/421575/Binding_site/1'>K70</scene> forms an additional hydrogen bond with the uracil moiety. Next to the uridine binding site, there is a second binding pocket lined with amino acid residues<scene name='42/421575/Binding_site/1'> T75, N190, D193, and G264</scene>, called the uridine-adjacent pocket. The 5-aminoribose moiety of carbacaprazamycin forms an extensive hydrogen bond network in the uridine-adjacent pocket <ref name="more1"/> <ref name="seven">PMID:31266949</ref>.
+= Relevance  =
+Drug resistant bacteria are the cause of death of millions of people worldwide. In the USA alone, hospital infections associated with antibiotic-resistant pathogens cause 99 000 deaths per year<ref name="more2">PMID:30349322</ref>. The development of new antibiotics with new mechanism of action is urgent. Structural analysis of the binding of carbacaprazamycin to MraY provides a better understanding of the chemical logic of MraY inhibition, which can help in the development of novel approaches for the design of antibiotics targeting MraY.

Sandbox Reserved 1107

From Proteopedia

Revision as of 02:12, 17 January 2020

Crystal structure of MraY bound to carbacaprazamycin, 6OYH

Contents

Introduction

MraY

Carbacaprazamycin

Function

Structure

Relevance

3D related structures

References

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