Abstract
Mycobacterium tuberculosis executes numerous defense strategies for the successful establishment of infection under a diverse array of challenges inside the host. One such strategy that has been delineated in this study is the abrogation of lytic activity of lysozyme by a novel glycosylated and surface-localized lipoprotein, LprI, which is exclusively present in M. tuberculosis complex. The lprI gene co-transcribes with the glbN gene (encoding hemoglobin (HbN)) and both are synchronously up-regulated in M. tuberculosis during macrophage infection. Recombinant LprI, expressed in Escherichia coli, exhibited strong binding (Kd ≤ 2 nm) with lysozyme and abrogated its lytic activity completely, thereby conferring protection to fluorescein-labeled Micrococcus lysodeikticus from lysozyme-mediated hydrolysis. Expression of the lprI gene in Mycobacterium smegmatis (8-10-fold) protected its growth from lysozyme inhibition in vitro and enhanced its phagocytosis and survival during intracellular infection of peritoneal and monocyte-derived macrophages, known to secrete lysozyme, and in the presence of exogenously added lysozyme in secondary cell lines where lysozyme levels are low. In contrast, the presence of HbN enhanced phagocytosis and intracellular survival of M. smegmatis only in the absence of lysozyme but not under lysozyme stress. Interestingly, co-expression of the glbN-lprI gene pair elevated the invasion and survival of M. smegmatis 2-3-fold in secondary cell lines in the presence of lysozyme in comparison with isogenic cells expressing these genes individually. Thus, specific advantage against macrophage-generated lysozyme, conferred by the combination of LprI-HbN during invasion of M. tuberculosis, may have vital implications on the pathogenesis of tuberculosis.
Highlights
Mycobacterium tuberculosis, the causative agent of tuberculosis, is one of the most dreaded human pathogens that affect millions of lives worldwide [1]
The genomic location of the lprI gene is conserved among pathogenic mycobacteria where it has been identified as an operon partner of the glbN gene, which encodes truncated hemoglobin (HbN)3 [7, 8]
LprI Is a Novel Lipoprotein of M. smegmatis (Ms). tuberculosis Complex—The open reading frame (ORF) Rv1541c in the genome of M. tuberculosis has been annotated as a lipoprotein, LprI [38], of 197 amino acids with a calculated molecular mass of 21.6 kDa
Summary
HbN, hemoglobin; HEWL, hen egg white lysozyme; MDM, monocyte-derived macrophage; MliC, membrane-bound lysozyme inhibitors of the C-type lysozyme; MliCPa, MliC of Pseudomonas aeruginosa. The level of lysozyme in mammalian tissues increases remarkably in several mycobacterial diseases, and it has been suggested to be a nonspecific diagnostic marker along with antibody levels in tuberculosis [16, 17]. It has been identified as one of the proteins with significant mycobactericidal activity from the pool of neutrophil granule proteins [18]. A high up-regulation of the lprI and the glbN genes in a temporal fashion, observed during macrophage infection, suggests their functional correlation that may be vital for the pathogenesis of M. tuberculosis
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