Dr St茅phane Mesnage

School of Biosciences

Senior Lecturer

Dr Stephane Mesnage
Profile picture of Dr Stephane Mesnage
s.mesnage@sheffield.ac.uk
+44 114 222 4405
Firth Court

Full contact details

Dr St茅phane Mesnage
School of Biosciences
Firth Court
Western Bank
Sheffield
S10 2TN
Profile
  • 2019 - present: Senior Lecturer, School of Biosciences, 爆料TV, UK
  • 2012 - 2018: Lecturer, Dept. of Molecular Biology and Biotechnology, 爆料TV, UK
  • 2010 - 2012: Marie Curie (IEF) Fellow, Dept. of Molecular Biology and Biotechnology, 爆料TV, UK
  • 2002 - 2010: INSERM Charg茅 de Recherches, University of Paris 6, France
  • 2000 - 2002: EMBO Research assistant, John Innes Centre, Norwich, UK
  • 1996 - 2000: PhD, Pasteur Institute, Paris, France
Research interests

My work is focused on the study of the bacterial cell wall using essentially two Gram-positive pathogens (Staphylococcus aureusEnterococcus faecalis) as models. I am interested in three major areas of research.

Analysis of protein-cell wall interactions

The essential cell wall peptidoglycan polymer network forms a scaffold for the display of a large variety of proteins involved in cell division, metabolism, cell-cell communication and in pathogen interaction with the host. Although several multimodular cell wall binding domains have been identified to date in bacteria, both their structural organisation and binding mechanism (binding motif, subcellular localisation) have remained elusive.

The aim of this project is to understand the molecular mechanisms underpinning protein-bacterial cell wall interactions and subcellular localisation of surface proteins.

Beyond these fundamental questions, the aim is to develop a translational research program to (i) develop peptidoglycan binding domains as new functional probes to provide a nanoscale topological map of the cell surface; (ii) provide an experimental rationale to engineer and target therapeutic molecules against pathogens.

This project involves multidisciplinary approaches across several disciplines including molecular biology, biochemistry, biophysics, structural biology and state-of-the-art super resolution microscopy. 

Control of peptidoglycan hydrolysis during growth

During growth, the insertion of new precursors and separation of daughter cells requires limited cleavage of the peptidoglycan molecule by peptidoglycan hydrolases.

Depending on the bond they cleave, these enzymes are classified as N-acetylmuramidases, N-acetylglucosaminidases, N-acetylmuramoyl L-alanine amidases, endopeptidases or carboxypeptidases (Fig. 2). In addition to their contribution to cell growth and division, some peptidoglycan hydrolases play a role in adhesion and in amplification of the inflammatory response by releasing muramyl-peptides.

The lytic activity of some peptidoglycan hydrolases (called autolysins) is potentially lethal and can lead to cell lysis and death. How bacteria control autolytic activities is poorly understood.

I am studying several mechanisms that may be responsible for the control of autolytic activities: (i) the subcellular targeting of autolysins; (ii) the impact of peptidoglycan structural properties on autolytic activities and (iii) the contribution of the electrochemical gradient across the cytoplasmic membrane to the control of peptidoglycan hydrolysis.

We routinely analyse peptidoglycan hydrolase substrate specificity by a combination of rp-HPLC and mass spectrometry. The enzymatic activity of autolysins is measured spectrophotometrically.

Role of Enterococcus faecalis cell wall metabolism in the interaction with the host

Lysozyme is the major component of the innate immune system and represents the first line of defense against pathogens. E. faecalis is highly resistant to lysozyme, with a minimal inhibitory concentration (MIC) above 50 mg/ml.

This extreme resistance has been partly explained by an additive effect of peptidoglycan O-acetylation and de-N-acetylation, as well as teichoic acid D-alanylation. It was also shown that full lysozyme resistance requires a signalling cascade involving the extracytoplasm

ic function (ECF) sigma factor SigV. Interestingly, E. faecalis strains harbouring multiple deletions in these pathways are still resistant to lysozyme. The identification of novel factors involved in lysozyme resistance is currently underway using random transposon mutagenesis. The mutants isolated will be further characterised in vivo.

Publications

Show: Featured publications All publications

Journal articles

  • Salamaga B, Prajsnar TK, Jare帽o-Martinez A, Willemse J, Bewley MA, Chau F, Ben Belkacem T, Meijer AH, Dockrell DH, Renshaw SA & Mesnage S (2017) . PLoS Pathogens, 13(7).
  • Mesnage S, Dellarole M, Baxter NJ, Rouget J-B, Dimitrov JD, Wang N, Fujimoto Y, Hounslow AM, Lacroix-Desmazes S, Fukase K , Foster SJ et al (2014) . Nat Commun, 5, 4269.
  • Prajsnar TK, Renshaw SA, Ogryzko NV, Foster SJ, Serror P & Mesnage S (2013) . Infect Immun, 81(11), 4271-4279.
  • Wheeler R, Mesnage S, Boneca IG, Hobbs JK & Foster SJ (2011) . Molecular Microbiology, 82(5), 1096-1109.
  • de Roca FR, Duch茅 C, Dong S, Rinc茅 A, Dubost L, Pritchard DG, Baker JR, Arthur M & Mesnage S (2010) . J Mol Biol, 398(4), 507-517.
  • Emirian A, Fromentin S, Eckert C, Chau F, Dubost L, Delepierre M, Gutmann L, Arthur M & Mesnage S (2009) . FEBS Lett, 583(18), 3033-3038.
  • Mesnage S, Chau F, Dubost L & Arthur M (2008) . J Biol Chem, 283(28), 19845-19853.

All publications

Journal articles

  • O'Dea F, Dupuis A, Brown J, Edwards J, Kay S, Stafford GP & Mesnage S (2025) . Microbial Genomics, 11(9).
  • Guy CS, Cooper C, Karlikowska M, Harrison J, Singh A, Serv铆n-Gonz谩lez LS, Evans CA, Bakker SE, Bottrill A, Bhatt A , Mesnage S et al (2025) . Journal of Biological Chemistry.
  • Thor茅n Edvardsen PK, Englund AN, Kjendseth Ro谭hr 脜, Mesnage S & Vaaje-Kolstad G (2025) . Biochemistry, 64(15), 3446-3458.
  • Heydenreich R, Nacita J, Lin C-W, O鈥橠ea F, Mesnage S, Christie G & Mathys A (2025) . Journal of Bacteriology, 207(7).
  • Smith RE, Michno BJ, Christena RL, O鈥橠ea F, Davis JL, Lidbury IDEA, Alam谩n-Z谩rate MG, Stefanidi D, Maes E, Fisher H , Prajsnar TK et al (2025) . PLoS Pathogens, 21(6).
  • Alam谩n-Z谩rate MG, Rady BJ, Ledermann R, Shephard N, Evans CA, Dickman MJ, Turner RD, Rifflet A, Patel AV, Gomperts Boneca I , Poole PS et al (2025) . Communications Chemistry, 8(1).
  • Davis JL, Norwood JS, Smith RE, O'Dea F, Chellappa K, Rowe ML, Williamson MP, Stafford GP, Vinogradov E, Maes E , Gu茅rardel Y et al (2025) . Carbohydrate Polymers, 347.
  • Norwood JS, Davis JL, Salamaga B, Moss CE, Johnston SA, Elks PM, Kiss鈥怲oth E & Mesnage S (2024) . Molecular Microbiology, 122(2), 230-242.
  • Alrafaie AM, Pyrzanowska K, Smith EM, Partridge DG, Rafferty J, Mesnage S, Shepherd J & Stafford GP (2024) . Virus Research, 347.
  • Sanz-Gaitero M, De Maesschalck V, Patel A, Longin H, Van Noort V, Rodriguez-Rubio L, van Ryne M, Danis-Wlodarczyk K, Drulis-Kawa Z, Mesnage S , van Raaij M et al (2024) . PHAGE, 5(2), 53-62.
  • Galley NF, Greetham D, Alam谩n-Z谩rate MG, Williamson MP, Evans CA, Spittal WD, Buddle JE, Freeman J, Davis GL, Dickman MJ , Wilcox MH et al (2024) . Journal of Biological Chemistry, 300(1).
  • Alam谩n-Z谩rate MG, Rady BJ, Evans CA, Pian B, Greetham D, Marecos-Ortiz S, Dickman MJ, Lidbury IDEA, Lovering AL, Barstow BM & Mesnage S (2024) . Journal of Biological Chemistry, 300(1).
  • Salamaga B, Turner RD, Elsarmane F, Galley NF, Kulakauskas S & Mesnage S (2023) . Communications Biology, 6(1).
  • Davis JL, Hounslow AM, Baxter NJ, Mesnage S & Williamson MP (2022) . Biomolecular NMR Assignments, 16, 247-251.
  • Ledger EVK, Mesnage S & Edwards AM (2022) . Nature Communications, 13(1).
  • Zamboni V, Barelier S, Dixon R, Galley NF, Ghanem A, Nguyen QP, Cahuzac H, Salamaga B, Davis PJ, Bourne Y , Mesnage S et al (2022) . Journal of Biological Chemistry, 298(5).
  • Patel AV, Turner RD, Rifflet A, Acosta-Martin AE, Nichols A, Awad MM, Lyras D, Gomperts Boneca I, Bern M, Collins MO & Mesnage S (2021) . eLife, 10.
  • Ma艂ecki PH, Mitkowski P, Jagielska E, Trochimiak K, Mesnage S & Saba艂a I (2021) . International Journal of Molecular Sciences, 22(13).
  • Sandoz KM, Moore RA, Beare PA, Patel AV, Smith RE, Bern M, Hwang H, Cooper CJ, Priola SA, Parks JM , Gumbart JC et al (2021) . Nature Microbiology, 6(1), 19-26.
  • Sibinelli-Sousa S, Hespanhol JT, Nicastro GG, Matsuyama BY, Mesnage S, Patel A, de Souza RF, Guzzo CR & Bayer-Santos E (2020) . Cell Reports, 31(12).
  • Guerardel Y, Sadovskaya I, Maes E, Furlan S, Chapot-Chartier M-P, Mesnage S, Rigottier-Gois L & Serror P (2020) . mBio, 11(2).
  • Gonzalez-Delgado LS, Walters-Morgan H, Salamaga B, Robertson AJ, Hounslow AM, Jagielska E, Saba艂a I, Williamson MP, Lovering AL & Mesnage S (2020) . Nature Chemical Biology, 16(1), 24-30.
  • Al-Zubidi M, Widziolek M, Court EK, Gains AF, Smith RE, Ansbro K, Alrafaie A, Evans C, Murdoch C, Mesnage S , Douglas CWI et al (2019) . Infection and Immunity, 87(11), e00512-e00519.
  • Bublitz DC, Chadwick GL, Magyar JS, Sandoz KM, Brooks DM, Mesnage S, Ladinsky MS, Garber AI, Bjorkman PJ, Orphan VJ & McCutcheon JP (2019) . Cell, 179(3), 703-712.e7.
  • Smith RE, Salamaga B, Szkuta P, Hajdamowicz N, Prajsnar TK, Bulmer GS, Fontaine T, Ko艂odziejczyk J, Herry J-M, Hounslow AM , Williamson MP et al (2019) . PLoS Pathogens, 15(5).
  • Turner RD, Mesnage S, Hobbs JK & Foster SJ (2018) . Nature Communications, 9.
  • Lund VA, Wacnik K, Turner RD, Cotterell BE, Walther CG, Fenn SJ, Grein F, Wollman AJ, Leake MC, Olivier N , Cadby A et al (2018) . Elife, 7.
  • Zhang X, de Maat V, Guzm谩n Prieto AM, Prajsnar TK, Bayjanov JR, de Been M, Rogers MRC, Bonten MJM, Mesnage S, Willems RJL & van Schaik W (2017) . BMC Genomics, 18(1).
  • Salamaga B, Prajsnar TK, Jare帽o-Martinez A, Willemse J, Bewley MA, Chau F, Ben Belkacem T, Meijer AH, Dockrell DH, Renshaw SA & Mesnage S (2017) . PLoS Pathogens, 13(7).
  • Miheli膷 M, Vlahovi膷ek-Kahlina K, Renko M, Mesnage S, Dober拧ek A, Taler-Ver膷i膷 A, Jakas A & Turk D (2017) . IUCrJ, 4(Pt 2), 185-198.
  • Bern M, Beniston R & Mesnage S (2016) . Analytical and Bioanalytical Chemistry, 409(2), 551-560.
  • Rodr铆guez-Rubio L, Gerstmans H, Thorpe S, Mesnage S, Lavigne R & Briers Y (2016) . Applied and Environmental Microbiology, 82(16), 4975-4981.
  • Oliveira H, Vilas Boas D, Mesnage S, Kluskens LD, Lavigne R, Sillankorva S, Secundo F & Azeredo J (2016) . Frontiers in Microbiology, 7.
  • Wheeler R, Turner RD, Bailey RG, Salamaga B, Mesnage S, Mohamad SA, Hayhurst EJ, Horsburgh M, Hobbs JK & Foster SJ (2015) . MBio, 6(4).
  • Willing SE, Candela T, Shaw HA, Seager Z, Mesnage SA, Fagan RP & Fairweather NF (2015) . Molecular Microbiology, 96(3), 596-608.
  • Lowry RC, Parker JL, Kumbhar R, Mesnage S, Shaw JG & Stafford GP (2015) . MicrobiologyOpen , 4(2), 220-234.
  • Lecerf M, Scheel T, Pashov AD, Jarossay A, Ohayon D, Planchais C, Mesnage S, Berek C, Kaveri SV, Lacroix-Desmazes S & Dimitrov JD (2015) . Journal of Biological Chemistry, 290(8), 5203-5213.
  • Mesnage S, Dellarole M, Baxter NJ, Rouget J-B, Dimitrov JD, Wang N, Fujimoto Y, Hounslow AM, Lacroix-Desmazes S, Fukase K , Foster SJ et al (2014) . Nat Commun, 5, 4269.
  • Dimitrov JD, Planchais C, Scheel T, Ohayon D, Mesnage S, Berek C, Kaveri SV & Lacroix-Desmazes S (2014) . J Biol Chem, 289(25), 17767-17779.
  • Prajsnar TK, Renshaw SA, Ogryzko NV, Foster SJ, Serror P & Mesnage S (2013) . Infect Immun, 81(11), 4271-4279.
  • Mesnage SA & Foster SJ (2013) , 1, 1401-1407.
  • Veyrier FJ, Williams AH, Mesnage S, Schmitt C, Taha M-K & Boneca IG (2013) . Mol Microbiol, 87(5), 1100-1112.
  • Benachour A, Ladjouzi R, Le Jeune A, H茅bert L, Thorpe S, Courtin P, Chapot-Chartier M-P, Prajsnar TK, Foster SJ & Mesnage S (2012) . J Bacteriol, 194(22), 6066-6073.
  • Wheeler R, Mesnage S, Boneca IG, Hobbs JK & Foster SJ (2011) . Molecular Microbiology, 82(5), 1096-1109.
  • Dub茅e V, Chau F, Arthur M, Garry L, Benadda S, Mesnage S, Lefort A & Fantin B (2011) . Antimicrob Agents Chemother, 55(2), 910-912.
  • de Roca FR, Duch茅 C, Dong S, Rinc茅 A, Dubost L, Pritchard DG, Baker JR, Arthur M & Mesnage S (2010) . J Mol Biol, 398(4), 507-517.
  • Emirian A, Fromentin S, Eckert C, Chau F, Dubost L, Delepierre M, Gutmann L, Arthur M & Mesnage S (2009) . FEBS Lett, 583(18), 3033-3038.
  • Bravetti A-L, Mesnage S, Lefort A, Chau F, Eckert C, Garry L, Arthur M & Fantin B (2009) . Antimicrob Agents Chemother, 53(4), 1667-1669.
  • Mesnage S, Chau F, Dubost L & Arthur M (2008) . J Biol Chem, 283(28), 19845-19853.
  • Villet R, Fonvielle M, Busca P, Chemama M, Maillard AP, Hugonnet J-E, Dubost L, Marie A, Josseaume N, Mesnage S , Mayer C et al (2007) . Nucleic Acids Res, 35(20), 6870-6883.
  • Eckert C, Magnet S & Mesnage S (2007) . FEBS Lett, 581(4), 693-696.
  • Eckert C, Lecerf M, Dubost L, Arthur M & Mesnage S (2006) . J Bacteriol, 188(24), 8513-8519.
  • Mylne JS, Barrett L, Tessadori F, Mesnage S, Johnson L, Bernatavichute YV, Jacobsen SE, Fransz P & Dean C (2006) . Proc Natl Acad Sci U S A, 103(13), 5012-5017.
  • Maillard AP, Biarrotte-Sorin S, Villet R, Mesnage S, Bouhss A, Sougakoff W, Mayer C & Arthur M (2005) . J Bacteriol, 187(11), 3833-3838.
  • Mignot T, Couture-Tosi E, Mesnage S, Mock M & Fouet A (2004) . Int J Med Microbiol, 293(7-8), 619-624.
  • Couture-Tosi E, Delacroix H, Mignot T, Mesnage S, Chami M, Fouet A & Mosser G (2002) . J Bacteriol, 184(23), 6448-6456.
  • Levy YY, Mesnage S, Mylne JS, Gendall AR & Dean C (2002) . Science, 297(5579), 243-246.
  • Mignot T, Mesnage S, Couture-Tosi E, Mock M & Fouet A (2002) . Mol Microbiol, 43(6), 1615-1627.
  • Fouet A & Mesnage S (2002) . Curr Top Microbiol Immunol, 271, 87-113.
  • Mesnage S & Fouet A (2002) . J Bacteriol, 184(1), 331-334.
  • Mesnage S, Haustant M & Fouet A (2001) . Microbiology (Reading), 147(Pt 5), 1343-1351.
  • Mesnage S (2001) Conserved anchoring mechanisms between crystalline cell surface S-layer proteins and secondary cell wall polymers in Gram-positive bacteria? Response. TRENDS MICROBIOL, 9(2), 49-50.
  • Mesnage S, Fontaine T, Mignot T, Delepierre M, Mock M & Fouet A (2000) . EMBO J, 19(17), 4473-4484.
  • Mesnage S, Tosi-Couture E & Fouet A (1999) . Mol Microbiol, 31(3), 927-936.
  • Mesnage S, Weber-Levy M, Haustant M, Mock M & Fouet A (1999) . Infect Immun, 67(9), 4847-4850.
  • Fouet A, Mesnage S, Tosi-Couture E, Gounon P & Mock M (1999) . J Appl Microbiol, 87(2), 251-255.
  • Mesnage S, Tosi-Couture E, Mock M & Fouet A (1999) . J Appl Microbiol, 87(2), 256-260.
  • Mesnage S, Tosi-Couture E, Gounon P, Mock M & Fouet A (1998) . J Bacteriol, 180(1), 52-58.
  • Mesnage S, Tosi-Couture E, Mock M, Gounon P & Fouet A (1997) . Mol Microbiol, 23(6), 1147-1155.
  • Bahl H, Scholz H, Bayan N, Chami M, Leblon G, Gulik-Krzywicki T, Shechter E, Fouet A, Mesnage S, Tosi-Couture E , Gounon P et al (1997) . FEMS Microbiology Reviews, 20(1-2), 47-98.
  • Bahl H, Scholz H, Bayan N, Chami M, Leblon G, Gulik-Krzywicki T, Shechter E, Fouet A, Mesnage S, Tosi-Couture E , Gounon P et al (1997) . FEMS Microbiol Rev, 20(1-2), 47-98.
  • el-Turk J, Asemota O, Leymarie J, Sallaud C, Mesnage S, Breda C, Buffard D, Kondorosi A & Esnault R (1996) . Gene, 170(2), 213-216.

Book chapters

  • Mesnage S & Foster SJ (2025) , Handbook of Proteolytic Enzymes (pp. 1671-1677). Elsevier
  • Rady BJ & Mesnage S (2024) , Methods in Molecular Biology (pp. 111-132). Springer US
  • Mesnage S & Foster SJ (2013) , Handbook of Proteolytic Enzymes (pp. 1401-1407). Elsevier

Conference proceedings

  • Davis J, Smith R, Maes E, Guerardel Y & Mesnage S (2022) Determining the structure of the enterococcal polysaccharide antigen. FEBS OPEN BIO, Vol. 12 (pp 41-41)
  • Hespanhol JT, Sibinelli-Souza S, Nicastro GG, Matsuyama BY, Mesnage S, Patel A, de Souza RF, Guzzo CR, Farah C & Bayer-Santos E (2021) A Family of T6SS Antibacterial Effectors related to L,D-transpeptidases Targets the Peptidoglycan. BIOPHYSICAL REVIEWS, Vol. 13(6) (pp 1408-1409)
  • Bern MW, Beniston R & Mesnage S (2016) . Glycobiology, Vol. 26(12) (pp 1457). New Orleans, Louisiana, USA, 19 November 2016 - 19 November 2016.

Preprints

  • Smith RE, Michno BJ, Christena RL, O鈥橠ea F, Davis JL, Lidbury IDEA, Alam谩n-Z谩rate MG, Stefanidi D, Maes E, Fisher H , Prajsnar TK et al (2024) , Cold Spring Harbor Laboratory.
  • Davis JL, Norwood JS, Smith RE, O鈥橠ea F, Chellappa K, Rowe ML, Williamson MP, Stafford GP, Vinogradov E, Maes E , Gu茅rardel Y et al (2024) , Cold Spring Harbor Laboratory.
  • Norwood JS, Davis JL, Salamaga B, Moss CE, Johnston S, Elks PM, Kiss-Toth E & Mesnage S (2024) , Cold Spring Harbor Laboratory.
  • S JN, L JD, Salamaga B, E CM, Johnston SA, Elks PM, Kiss-Toth E & MESNAGE S (2024) , Wiley.
  • Alaman-Zarate MG, Rady BJ, Evans CA, Pian B, Greetham D, Marecos-Ortiz S, Dickman MJ, Lidbury IDEA, Lovering AL, Barstow BM & Mesnage S (2023) , Cold Spring Harbor Laboratory.
  • de Sousa SS, Hespanhol JT, Nicastro GG, Matsuyama BY, Mesnage S, Patel A, de Souza RF, Guzzo CR & Bayer-Santos E (2020) , Cold Spring Harbor Laboratory.
  • Smith RE, Salamaga B, Szkuta P, Hajdamowicz N, Prajsnar TK, Bulmer G, Fontaine T, Ko艂odziejczyk J, Herry J-M, Hounslow A , Williamson MP et al (2018) , Cold Spring Harbor Laboratory.
  • Zhang X, Guzman Prieto AM, de Maat V, Prajsnar TK, Bayjanov JR, de Been M, Rogers MRC, Bonten MJM, Mesnage S, Willems RJL & van Schaik W (2017) , Cold Spring Harbor Laboratory.
  • Ledger EVK, Mesnage S & Edwards AM () .
  • Patel AV, Turner RD, Rifflet A, Acosta-Martin AE, Nichols A, Awad MM, Lyras D, Gomperts-Boneca I, Bern M, Collins MO & Mesnage S () .
  • Sibinelli-Sousa S, Hespanhol JT, Nicastro GG, Matsuyama BY, Mesnage S, Patel A, de Souza RF, Guzzo CR & Bayer Santos E () .

Links