Cytotoxic Cells Kill Intracellular Bacteria through Granulysin-Mediated Delivery of Granzymes

Walch, Michael; Dotiwala, Farokh; Mulik, Sachin; Thiery, Jérôme; Kirchhausen, Tomas; Clayberger, Carol; Krensky, Alan M.; Martinvalet, Denis; Lieberman, Judy

doi:10.1016/j.cell.2014.03.062

Cited by 183 publications

(192 citation statements)

References 38 publications

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“…Net cationic charge, as indicated by a high isoelectric point (pI), permits AMPs to bind negatively charged microbial cell surface components. 48,49 Amphipathicity, which refers to the tendency of an AMP to remain in solution in both hydrophilic and hydrophobic environments, is a key requisite for AMPs to disrupt lipid bilayers. Secondary structure motifs such as α-helices and β-sheets stabilize AMP pore formation in microbial lipid bilayers, whereas disulphide bridges between cysteine residues maintain AMP structural integrity.…”

Section: Antimicrobial Peptidesmentioning

confidence: 99%

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Amplifying renal immunity: the role of antimicrobial peptides in pyelonephritis

et al. 2015

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Urinary tract infections (UTIs), including pyelonephritis, are among the most common and serious infections encountered in nephrology practice. UTI risk is increased in selected patient populations with renal and urinary tract disorders. As the prevalence of antibiotic-resistant uropathogens increases, novel and alternative treatment options will be needed to reduce UTI-associated morbidity. Discoveries over the past decade demonstrate a fundamental role for the innate immune system in protecting the urothelium from bacterial challenge. Antimicrobial peptides, an integral component of this urothelial innate immune system, demonstrate potent bactericidal activity toward uropathogens and might represent a novel class of UTI therapeutics. The urothelium of the bladder and the renal epithelium secrete antimicrobial peptides into the urinary stream. In the kidney, intercalated cells--a cell-type involved in acid-base homeostasis--have been shown to be an important source of antimicrobial peptides. Intercalated cells have therefore become the focus of new investigations to explore their function during pyelonephritis and their role in maintaining urinary tract sterility. This Review provides an overview of UTI pathogenesis in the upper and lower urinary tract. We describe the role of intercalated cells and the innate immune response in preventing UTI, specifically highlighting the role of antimicrobial peptides in maintaining urinary tract sterility.

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Section: Antimicrobial Peptidesmentioning

confidence: 99%

“…56 In addition, AMPs interact with host cells to modulate antimicrobial responses and activate host innate and adaptive immune effector cells ( Figure 5). 48,49 The following sections describe the published literature on the function(s) and cellular sources of urinary tract AMPs and other innate immune proteins.…”

Section: Antimicrobial Peptidesmentioning

confidence: 99%

Amplifying renal immunity: the role of antimicrobial peptides in pyelonephritis

et al. 2015

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“…The cytotoxic granule pore-forming protein, perforin (PFN), delivers the death-inducing granzyme (Gzm) serine proteases into the target cell, where they cleave multiple substrates to kill the target cell. These cytotoxic cells also kill intracellular bacteria and protozoa (Dotiwala et al, 2016; Walch et al, 2014). Granulysin (GNLY), another pore-forming protein in the cytotoxic granules of killer cells of most mammals, but not rodents, selectively permeabilizes microbial membranes (Stenger et al, 1998) and delivers the Gzms into intracellular microbes to cause rapid microbial death before the host cell is killed.…”

Section: Introductionmentioning

confidence: 99%

Granzyme B Disrupts Central Metabolism and Protein Synthesis in Bacteria to Promote an Immune Cell Death Program

Dotiwala

Santara

Binker-Cosen

et al. 2017

Cell

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SUMMARY Human cytotoxic lymphocytes kill intracellular microbes. The cytotoxic granule granzyme proteases released by cytotoxic lymphocytes trigger oxidative bacterial death by disrupting electron transport, generating superoxide anion and inactivating bacterial oxidative defenses. However, they also cause non-oxidative cell death, since anaerobic bacteria are also killed. Here we use differential proteomics to identify granzyme B substrates in three unrelated bacteria, Escherichia coli, Listeria monocytogenes and Mycobacteria tuberculosis. Granzyme B cleaves a highly conserved set of proteins in all three bacteria, which function in vital biosynthetic and metabolic pathways that are critical for bacterial survival under diverse environmental conditions. Key proteins required for protein synthesis, folding and degradation are also substrates, including multiple aminoacyl tRNA synthetases, ribosomal proteins, protein chaperones and the Clp system. Because killer cells use a multi-pronged strategy to target vital pathways, bacteria may not easily become resistant to killer cell attack.

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“…4 Granulysin is also able to generate pores on the surface of bacteria, promoting infiltration of the granzymes into the bacterial cytosol and killing various bacteria via the generation of radical oxygen species (ROS). 7 In particular, synthetic peptides based on granulysin also exhibit better inhibition activity to single drug-resistant and even MDR-TB strains in vitro, 8 and in transgenic mice that constitutively express human granulysin, there is significantly inhibition of the growth of M. tuberculosis in infected mice. 9 However, to kill intracellular M. tuberculosis, granulysin depends on the effect of perforin to cross the cell membrane of host cells.…”

Section: Introductionmentioning

confidence: 99%

Inhalation of recombinant adenovirus expressing granulysin protects mice infected with Mycobacterium tuberculosis

Huang

et al. 2015

Gene Ther

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Granulysin is a cytolytic molecule with perforin and granzymes that is expressed by activated human CTLs, NK and γδ T cells, and it has broad antimicrobial activity, including to drug-sensitive and drug-resistant Mycobacterium tuberculosis. We hypothesized that approaches facilitating the expression of granulysin in M. tuberculosis-infected host cells in the lung may provide a novel treatment strategy for pulmonary TB. In this study, a recombinant replication-deficient adenovirus serotype 5-based rAdhGLi was constructed that expressed human granulysin in the cytosol of the U937 and RAW264.7 macrophage-like cell lines as confirmed by western blotting and co-localization technology using indirect immunofluorescence staining. Ninety-six hours after both cell lines were infected with M. tuberculosis, acid-fast staining and enumeration demonstrated that rAdhGLi-treated cells had a lower colony-forming units (CFU) of intracellular bacteria than culture medium or AdNull controls. Granulysin was only expressed in the lung and not in other organs following inhalation of rAdhGLi. In particular, immunocompetent BALB/c mice or SCID mice intranasally infected with ~200 CFU of virulent M. tuberculosis H37Rv intranasally were treated with rAdhGLi, and they showed decreased bacterial loads in the lung when compared with phosphate-buffered saline or AdNull controls. Importantly, a clear dose-dependent rAdhGLi treatment efficacy was found in infected BALB/c mice, with the most significant reduction in lung bacteria obtained in BALB/c mice treated with 10(9) plaque-forming units of rAdhGLi without any pathological changes. Our study indicates that rAdhGLi may be used as a novel and efficient treatment strategy with the capability to directly kill intracellular M. tuberculosis.

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Cytotoxic Cells Kill Intracellular Bacteria through Granulysin-Mediated Delivery of Granzymes

Cited by 183 publications

References 38 publications

Amplifying renal immunity: the role of antimicrobial peptides in pyelonephritis

Amplifying renal immunity: the role of antimicrobial peptides in pyelonephritis

Granzyme B Disrupts Central Metabolism and Protein Synthesis in Bacteria to Promote an Immune Cell Death Program

Inhalation of recombinant adenovirus expressing granulysin protects mice infected with Mycobacterium tuberculosis

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