Structure-function relationship of PE11 esterase of Mycobacterium tuberculosis with respect to its role in virulence.

Structure-function relationship of PE11 esterase of Mycobacterium tuberculosis with respect to its role in virulence.

Publication date: Dec 20, 2024

The lipolytic enzymes of Mycobacterium tuberculosis play a critical role in immunomodulation and virulence. Among these proteins, PE11 which also belongs to the PE/PPE family, is the smallest (∼10. 8 kDa) and play a significant role in cell wall remodelling and virulence. PE11 is established to be an esterase, but its enzymatic and structural properties are not yet characterized. In this study, using homology modelling we deduced the putative structure which shows the presence of both α-helix and β-sheet structures which is in close agreement with that observed by CD spectra of the purified protein. PE11 was found to contain a GxSxG motif homologous to canonical ‘GxSxG’ motif present in many serin hydrolases. The catalytic triad appears to be located within this motif as substitution of Serine and Glycine residues abrogated its enzymatic activity. Gel-filtration chromatography data indicate that PE11 possibly exists as dimer and tetramer showing positive cooperativity for binding its substrates. In addition, PE11 esterase activity was found to be critical for cell wall remodelling, antibiotic resistance and conferring survival advantages to M. tuberculosis. Our data suggest that PE11 can be targeted for designing potential therapeutic strategies.

Concepts Keywords
Gxsxg Amino Acid Sequence
Lipolytic Bacterial Proteins
Mycobacterium Bacterial Proteins
Remodelling Cell Wall
Virulence Esterase
Esterases
Esterases
M. tuberculosis
Macrophage infection
Models, Molecular
Mycobacterium tuberculosis
PE11
Structure-Activity Relationship
Virulence
Virulence

Semantics

Type Source Name
disease IDO role
disease IDO virulence
disease IDO protein
drug DRUGBANK Serine
drug DRUGBANK Glycine
disease IDO antibiotic resistance
disease MESH tuberculosis
pathway KEGG Tuberculosis
disease MESH infection

Original Article

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