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1. A human model of Buruli ulcer: The case for controlled human infection and considerations for selecting a Mycobacterium ulcerans challenge strain

Author

Converse, PJ, Muhi, S, Osowicki, J, O'Brien, D, Johnson, PDR, Pidot, S, Doerflinger, M, Marshall, JLL, Pellegrini, M, McCarthy, J, Stinear, TPP, Converse, PJ, Muhi, S, Osowicki, J, O'Brien, D, Johnson, PDR, Pidot, S, Doerflinger, M, Marshall, JLL, Pellegrini, M, McCarthy, J, and Stinear, TPP

Abstract

Critical knowledge gaps regarding infection with Mycobacterium ulcerans, the cause of Buruli ulcer (BU), have impeded development of new therapeutic approaches and vaccines for prevention of this neglected tropical disease. Here, we review the current understanding of host-pathogen interactions and correlates of immune protection to explore the case for establishing a controlled human infection model of M. ulcerans infection. We also summarise the overarching safety considerations and present a rationale for selecting a suitable challenge strain.

Published
2023

2. Venetoclax, alone and in combination with the BH3 mimetic S63845, depletes HIV-1 latently infected cells and delays rebound in humanized mice

Author

Arandjelovic, P, Kim, Y, Cooney, JP, Preston, SP, Doerflinger, M, Mcmahon, JH, Garner, SE, Zerbato, JM, Roche, M, Tumpach, C, Ong, J, Sheerin, D, Smyth, GK, Anderson, JL, Allison, CC, Lewin, SR, Pellegrini, M, Arandjelovic, P, Kim, Y, Cooney, JP, Preston, SP, Doerflinger, M, Mcmahon, JH, Garner, SE, Zerbato, JM, Roche, M, Tumpach, C, Ong, J, Sheerin, D, Smyth, GK, Anderson, JL, Allison, CC, Lewin, SR, and Pellegrini, M

Abstract

HIV-1 persists indefinitely in people living with HIV (PLWH) on antiretroviral therapy (ART). If ART is stopped, the virus rapidly rebounds from long-lived latently infected cells. Using a humanized mouse model of HIV-1 infection and CD4+ T cells from PLWH on ART, we investigate whether antagonizing host pro-survival proteins can prime latent cells to die and facilitate HIV-1 clearance. Venetoclax, a pro-apoptotic inhibitor of Bcl-2, depletes total and intact HIV-1 DNA in CD4+ T cells from PLWH ex vivo. This venetoclax-sensitive population is enriched for cells with transcriptionally higher levels of pro-apoptotic BH3-only proteins. Furthermore, venetoclax delays viral rebound in a mouse model of persistent HIV-1 infection, and the combination of venetoclax with the Mcl-1 inhibitor S63845 achieves a longer delay in rebound compared with either intervention alone. Thus, selective inhibition of pro-survival proteins can induce death of HIV-1-infected cells that persist on ART, extending time to viral rebound.

Published
2023

3. Blood transcriptomics identifies immune signatures indicative of infectious complications in childhood cancer patients with febrile neutropenia

Author

Haeusler, GM, Garnham, AL, Li-Wai-Suen, CS, Clark, JE, Babl, FE, Allaway, Z, Slavin, MA, Mechinaud, F, Smyth, GK, Phillips, B, Thursky, KA, Pellegrini, M, Doerflinger, M, Haeusler, GM, Garnham, AL, Li-Wai-Suen, CS, Clark, JE, Babl, FE, Allaway, Z, Slavin, MA, Mechinaud, F, Smyth, GK, Phillips, B, Thursky, KA, Pellegrini, M, and Doerflinger, M

Abstract

OBJECTIVES: Febrile neutropenia (FN) is a major cause of treatment disruption and unplanned hospitalization in childhood cancer patients. This study investigated the transcriptome of peripheral blood mononuclear cells (PBMCs) in children with cancer and FN to identify potential predictors of serious infection. METHODS: Whole-genome transcriptional profiling was conducted on PBMCs collected during episodes of FN in children with cancer at presentation to the hospital (Day 1; n = 73) and within 8-24 h (Day 2; n = 28) after admission. Differentially expressed genes as well as gene pathways that correlated with clinical outcomes were defined for different infectious outcomes. RESULTS: Global differences in gene expression associated with specific immune responses in children with FN and documented infection, compared to episodes without documented infection, were identified at admission. These differences resolved over the subsequent 8-24 h. Distinct gene signatures specific for bacteraemia were identified both at admission and on Day 2. Differences in gene signatures between episodes with bacteraemia and episodes with bacterial infection, viral infection and clinically defined infection were also observed. Only subtle differences in gene expression profiles between non-bloodstream bacterial and viral infections were identified. CONCLUSION: Blood transcriptome immune profiling analysis during FN episodes may inform monitoring and aid in defining adequate treatment for different infectious aetiologies in children with cancer.

Published
2022

4. Insights Into Drug Repurposing, as Well as Specificity and Compound Properties of Piperidine-Based SARS-CoV-2 PLpro Inhibitors

Author

Calleja, DJ, Kuchel, N, Lu, BGC, Birkinshaw, RW, Klemm, T, Doerflinger, M, Cooney, JP, Mackiewicz, L, Au, AE, Yap, YQ, Blackmore, TR, Katneni, K, Crighton, E, Newman, J, Jarman, KE, Call, MJ, Lechtenberg, BC, Czabotar, PE, Pellegrini, M, Charman, SA, Lowes, KN, Mitchell, JP, Nachbur, U, Lessene, G, Komander, D, Calleja, DJ, Kuchel, N, Lu, BGC, Birkinshaw, RW, Klemm, T, Doerflinger, M, Cooney, JP, Mackiewicz, L, Au, AE, Yap, YQ, Blackmore, TR, Katneni, K, Crighton, E, Newman, J, Jarman, KE, Call, MJ, Lechtenberg, BC, Czabotar, PE, Pellegrini, M, Charman, SA, Lowes, KN, Mitchell, JP, Nachbur, U, Lessene, G, and Komander, D

Abstract

The COVID-19 pandemic continues unabated, emphasizing the need for additional antiviral treatment options to prevent hospitalization and death of patients infected with SARS-CoV-2. The papain-like protease (PLpro) domain is part of the SARS-CoV-2 non-structural protein (nsp)-3, and represents an essential protease and validated drug target for preventing viral replication. PLpro moonlights as a deubiquitinating (DUB) and deISGylating enzyme, enabling adaptation of a DUB high throughput (HTS) screen to identify PLpro inhibitors. Drug repurposing has been a major focus through the COVID-19 pandemic as it may provide a fast and efficient route for identifying clinic-ready, safe-in-human antivirals. We here report our effort to identify PLpro inhibitors by screening the ReFRAME library of 11,804 compounds, showing that none inhibit PLpro with any reasonable activity or specificity to justify further progression towards the clinic. We also report our latest efforts to improve piperidine-scaffold inhibitors, 5c and 3k, originally developed for SARS-CoV PLpro. We report molecular details of binding and selectivity, as well as in vitro absorption, distribution, metabolism and excretion (ADME) studies of this scaffold. A co-crystal structure of SARS-CoV-2 PLpro bound to inhibitor 3k guides medicinal chemistry efforts to improve binding and ADME characteristics. We arrive at compounds with improved and favorable solubility and stability characteristics that are tested for inhibiting viral replication. Whilst still requiring significant improvement, our optimized small molecule inhibitors of PLpro display decent antiviral activity in an in vitro SARS-CoV-2 infection model, justifying further optimization.

Published
2022

5. Programmed cell death: the pathways to severe COVID-19?

Author

Bader, SM, Cooney, JP, Pellegrini, M, Doerflinger, M, Bader, SM, Cooney, JP, Pellegrini, M, and Doerflinger, M

Abstract

Two years after the emergence of SARS-CoV-2, our understanding of COVID-19 disease pathogenesis is still incomplete. Despite unprecedented global collaborative scientific efforts and rapid vaccine development, an uneven vaccine roll-out and the emergence of novel variants of concern such as omicron underscore the critical importance of identifying the mechanisms that contribute to this disease. Overt inflammation and cell death have been proposed to be central drivers of severe pathology in COVID-19 patients and their pathways and molecular components therefore present promising targets for host-directed therapeutics. In our review, we summarize the current knowledge on the role and impact of diverse programmed cell death (PCD) pathways on COVID-19 disease. We dissect the complex connection of cell death and inflammatory signaling at the cellular and molecular level and identify a number of critical questions that remain to be addressed. We provide rationale for targeting of cell death as potential COVID-19 treatment and provide an overview of current therapeutics that could potentially enter clinical trials in the near future.

Published
2022

6. Tankyrase-mediated ADP-ribosylation is a regulator of TNF-induced death

Author

Liu, L, Sandow, JJ, Pedrioli, DML, Samson, AL, Silke, N, Kratina, T, Ambrose, RL, Doerflinger, M, Hu, Z, Morrish, E, Chau, D, Kueh, AJ, Fitzibbon, C, Pellegrini, M, Pearson, JS, Hottiger, MO, Webb, A, Lalaoui, N, Silke, J, Liu, L, Sandow, JJ, Pedrioli, DML, Samson, AL, Silke, N, Kratina, T, Ambrose, RL, Doerflinger, M, Hu, Z, Morrish, E, Chau, D, Kueh, AJ, Fitzibbon, C, Pellegrini, M, Pearson, JS, Hottiger, MO, Webb, A, Lalaoui, N, and Silke, J

Abstract

Tumor necrosis factor (TNF) is a key component of the innate immune response. Upon binding to its receptor, TNFR1, it promotes production of other cytokines via a membrane-bound complex 1 or induces cell death via a cytosolic complex 2. To understand how TNF-induced cell death is regulated, we performed mass spectrometry of complex 2 and identified tankyrase-1 as a native component that, upon a death stimulus, mediates complex 2 poly-ADP-ribosylation (PARylation). PARylation promotes recruitment of the E3 ligase RNF146, resulting in proteasomal degradation of complex 2, thereby limiting cell death. Expression of the ADP-ribose-binding/hydrolyzing severe acute respiratory syndrome coronavirus 2 macrodomain sensitizes cells to TNF-induced death via abolishing complex 2 PARylation. This suggests that disruption of ADP-ribosylation during an infection can prime a cell to retaliate with an inflammatory cell death.

Published
2022

7. Epigenetic Silencing of RIPK3 in Hepatocytes Prevents MLKL -mediated Necroptosis From Contributing to Liver Pathologies

Author

Preston, SP, Stutz, MD, Allison, CC, Nachbur, U, Gouil, Q, Bang, MT, Duvivier, V, Arandjelovic, P, Cooney, JP, Mackiewicz, L, Meng, Y, Schaefer, J, Bader, SM, Peng, H, Valaydon, Z, Rajasekaran, P, Jennison, C, Lopaticki, S, Farrell, A, Ryan, M, Howell, J, Croagh, C, Karunakaran, D, Schuster-Klein, C, Murphy, JM, Fifis, T, Christophi, C, Vincan, E, Blewitt, ME, Thompson, A, Boddey, JA, Doerflinger, M, Pellegrini, M, Preston, SP, Stutz, MD, Allison, CC, Nachbur, U, Gouil, Q, Bang, MT, Duvivier, V, Arandjelovic, P, Cooney, JP, Mackiewicz, L, Meng, Y, Schaefer, J, Bader, SM, Peng, H, Valaydon, Z, Rajasekaran, P, Jennison, C, Lopaticki, S, Farrell, A, Ryan, M, Howell, J, Croagh, C, Karunakaran, D, Schuster-Klein, C, Murphy, JM, Fifis, T, Christophi, C, Vincan, E, Blewitt, ME, Thompson, A, Boddey, JA, Doerflinger, M, and Pellegrini, M

Abstract

BACKGROUND & AIMS: Necroptosis is a highly inflammatory mode of cell death that has been implicated in causing hepatic injury including steatohepatitis/ nonalcoholic steatohepatitis (NASH); however, the evidence supporting these claims has been controversial. A comprehensive, fundamental understanding of cell death pathways involved in liver disease critically underpins rational strategies for therapeutic intervention. We sought to define the role and relevance of necroptosis in liver pathology. METHODS: Several animal models of human liver pathology, including diet-induced steatohepatitis in male mice and diverse infections in both male and female mice, were used to dissect the relevance of necroptosis in liver pathobiology. We applied necroptotic stimuli to primary mouse and human hepatocytes to measure their susceptibility to necroptosis. Paired liver biospecimens from patients with NASH, before and after intervention, were analyzed. DNA methylation sequencing was also performed to investigate the epigenetic regulation of RIPK3 expression in primary human and mouse hepatocytes. RESULTS: Identical infection kinetics and pathologic outcomes were observed in mice deficient in an essential necroptotic effector protein, MLKL, compared with control animals. Mice lacking MLKL were indistinguishable from wild-type mice when fed a high-fat diet to induce NASH. Under all conditions tested, we were unable to induce necroptosis in hepatocytes. We confirmed that a critical activator of necroptosis, RIPK3, was epigenetically silenced in mouse and human primary hepatocytes and rendered them unable to undergo necroptosis. CONCLUSIONS: We have provided compelling evidence that necroptosis is disabled in hepatocytes during homeostasis and in the pathologic conditions tested in this study.

Published
2022

10. Nanobody cocktails potently neutralize SARS-CoV-2 D614G N501Y variant and protect mice

Author

Pymm, P, Adair, A, Chan, L-J, Cooney, JP, Mordant, FL, Allison, CC, Lopez, E, Haycroft, ER, O'Neill, MT, Tan, LL, Dietrich, MH, Drew, D, Doerflinger, M, Dengler, MA, Scott, NE, Wheatley, AK, Gherardin, NA, Venugopal, H, Cromer, D, Davenport, MP, Pickering, R, Godfrey, D, Purcell, DFJ, Kent, SJ, Chung, AW, Subbarao, K, Pellegrini, M, Glukhova, A, Tham, W-H, Pymm, P, Adair, A, Chan, L-J, Cooney, JP, Mordant, FL, Allison, CC, Lopez, E, Haycroft, ER, O'Neill, MT, Tan, LL, Dietrich, MH, Drew, D, Doerflinger, M, Dengler, MA, Scott, NE, Wheatley, AK, Gherardin, NA, Venugopal, H, Cromer, D, Davenport, MP, Pickering, R, Godfrey, D, Purcell, DFJ, Kent, SJ, Chung, AW, Subbarao, K, Pellegrini, M, Glukhova, A, and Tham, W-H

Abstract

Neutralizing antibodies are important for immunity against SARS-CoV-2 and as therapeutics for the prevention and treatment of COVID-19. Here, we identified high-affinity nanobodies from alpacas immunized with coronavirus spike and receptor-binding domains (RBD) that disrupted RBD engagement with the human receptor angiotensin-converting enzyme 2 (ACE2) and potently neutralized SARS-CoV-2. Epitope mapping, X-ray crystallography, and cryo-electron microscopy revealed two distinct antigenic sites and showed two neutralizing nanobodies from different epitope classes bound simultaneously to the spike trimer. Nanobody-Fc fusions of the four most potent nanobodies blocked ACE2 engagement with RBD variants present in human populations and potently neutralized both wild-type SARS-CoV-2 and the N501Y D614G variant at concentrations as low as 0.1 nM. Prophylactic administration of either single nanobody-Fc or as mixtures reduced viral loads by up to 104-fold in mice infected with the N501Y D614G SARS-CoV-2 virus. These results suggest a role for nanobody-Fc fusions as prophylactic agents against SARS-CoV-2.

Published
2021

11. Successful identification of predictive profiles for infection utilising systems-level immune analysis: a pilot study in patients with relapsed and refractory multiple myeloma

Author

Doerflinger, M, Garnham, AL, Freytag, S, Harrison, SJ, Prince, HM, Quach, H, Slavin, MA, Pellegrini, M, Teh, BW, Doerflinger, M, Garnham, AL, Freytag, S, Harrison, SJ, Prince, HM, Quach, H, Slavin, MA, Pellegrini, M, and Teh, BW

Abstract

OBJECTIVES: Patients with multiple myeloma (MM) are at increased risk for infection. Clinical assessment of infection risk is increasingly challenging in the era of immune-based therapy. A pilot systems-level immune analysis study to identify predictive markers for infection was conducted. METHODS: Patients with relapsed and/or refractory MM (RRMM) who participated in a treatment trial of lenalidomide and dexamethasone were evaluated. Data on patient demographics, disease and episodes of infection were extracted from clinical records. Peripheral blood mononuclear cells (PBMCs) collected at defined intervals were analysed, with or without mitogen re-stimulation, using RNA sequencing and mass cytometry (CyTOF). CyTOF-derived cell subsets and RNAseq gene expression profiles were compared between patients that did and did not develop infection to identify immune signatures that predict infection over a 3-month period. RESULTS: Twenty-three patients participated in the original treatment trial, and we were able to access samples from 17 RRMM patients for further evaluation in our study. Nearly half the patients developed an infection (8/17) within 3 months of sample collection. Infections were mostly clinically diagnosed (62.5%), and the majority involved the respiratory tract (87.5%). We did not detect phenotypic or numerical differences in immune cell populations between patients that did and did not develop infections. Transcriptional profiling of stimulated PBMCs revealed distinct Th2 immune pathway signatures in patients that developed infection. CONCLUSION: Immune cell counts were not useful predictors of infection risk. Functional assessment of stimulated PBMCs has identified potential immune profiles that may predict future infection risk in patients with RRMM.

Published
2021

12. Pseudotumor presentation of CMV disease: Diagnostic dilemma and association with immunomodulating therapy

Author

Smibert, OC, Allison, CC, Doerflinger, M, Pellegrini, M, Rischin, D, Thai, A, Slavin, MA, Kotton, CN, Smibert, OC, Allison, CC, Doerflinger, M, Pellegrini, M, Rischin, D, Thai, A, Slavin, MA, and Kotton, CN

Abstract

Cytomegalovirus (CMV) is a significant cause of morbidity and mortality in the immunocompromised host. Atypical presentations which include pseudotumors or "cancer mimics" have been described. The etiology of these lesions remains unclear. The authors describe two previously unpublished cases that have arisen in the context of newer immunomodulating therapy and review the existing non-HIV-associated CMV pseudotumors described in the literature.

Published
2021

13. Procalcitonin and Interleukin-10 May Assist in Early Prediction of Bacteraemia in Children With Cancer and Febrile Neutropenia

Author

Doerflinger, M, Haeusler, GM, Li-Wai-Suen, CSN, Clark, JE, Slavin, M, Babl, FE, Allaway, Z, Mechinaud, F, Smyth, GK, De Abreu Lourenco, R, Phillips, B, Pellegrini, M, Thursky, KA, Doerflinger, M, Haeusler, GM, Li-Wai-Suen, CSN, Clark, JE, Slavin, M, Babl, FE, Allaway, Z, Mechinaud, F, Smyth, GK, De Abreu Lourenco, R, Phillips, B, Pellegrini, M, and Thursky, KA

Abstract

OBJECTIVES: Febrile neutropenia (FN) causes treatment disruption and unplanned hospitalization in children with cancer. Serum biomarkers are infrequently used to stratify these patients into high or low risk for serious infection. This study investigated plasma abundance of cytokines in children with FN and their ability to predict bacteraemia. METHODS: Thirty-three plasma cytokines, C-reactive protein (CRP) and procalcitonin (PCT) were measured using ELISA assays in samples taken at FN presentation (n = 79) and within 8-24 h (Day 2; n = 31). Optimal thresholds for prediction of bacteraemia were identified and the predictive ability of biomarkers in addition to routinely available clinical variables was assessed. RESULTS: The median age of included FN episodes was 6.0 years and eight (10%) had a bacteraemia. On presentation, elevated PCT, IL-10 and Mip1-beta were significantly associated with bacteraemia, while CRP, IL-6 and IL-8 were not. The combination of PCT (≥0.425 ng/ml) and IL-10 (≥4.37 pg/ml) had a sensitivity of 100% (95% CI 68.8-100%) and specificity of 89% (95% CI 80.0-95.0%) for prediction of bacteraemia, correctly identifying all eight bacteraemia episodes and classifying 16 FN episodes as high-risk. There was limited additive benefit of incorporating clinical variables to this model. On Day 2, there was an 11-fold increase in PCT in episodes with a bacteraemia which was significantly higher than that observed in the non-bacteraemia episodes. CONCLUSION: Elevated PCT and IL-10 accurately identified all bacteraemia episodes in our FN cohort and may enhance the early risk stratification process in this population. Prospective validation and implementation is required to determine the impact on health service utilisation.

Published
2021

14. Circulating BiP/Grp78 is a novel prognostic marker for sepsis-mediated immune cell death

Author

Doerflinger, M, Reljic, B, Menassa, J, Nedeva, C, Jose, I, Faou, P, Mackiewicz, L, Mansell, A, Pellegrini, M, Hotchkiss, R, Puthalakath, H, Doerflinger, M, Reljic, B, Menassa, J, Nedeva, C, Jose, I, Faou, P, Mackiewicz, L, Mansell, A, Pellegrini, M, Hotchkiss, R, and Puthalakath, H

Abstract

Sepsis remains to be a major contributor to mortality in ICUs, and immune suppression caused by immune cell apoptosis determines the overall patient survival. However, diagnosis of sepsis-induced lymphopenia remains problematic with no accurate prognostic techniques or biomarkers for cell death available. Developing reliable prognostic tools for sepsis-mediated cell death is not only important for identifying patients at increased risk of immune suppression but also to monitor treatment progress of currently trialed immunotherapy strategies. We have previously shown an important role for endoplasmic reticulum stress (ER stress) in inducing sepsis-mediated cell death and here report on the identification of a secreted form of the ER chaperone BiP (immunoglobulin binding protein) as a novel circulating prognostic biomarker for immune cell death and ER stress during sepsis. Using biochemical purification and mass spectrometry coupled with an established in vitro sepsis cell death assay, we identified BiP/Grp78 as a factor secreted by lipopolysaccharide-activated macrophages that is capable of inducing cell death in target cells. Quantitative ELISA analysis showed significantly elevated levels of circulating BiP in mice undergoing polymicrobial sepsis, which was absent in Bim-/- mice that are protected from sepsis-induced lymphopenia. Using blood serum from human sepsis patients, we could detect a significant difference in levels of secreted BiP in sepsis patients compared to nonseptic controls, suggesting that secreted circulating BiP could indeed be used as a prognostic marker that is directly correlative to immune cell death during sepsis.

Published
2021

15. The role of MKK4 in T-cell development and immunity to viral infections

Author

Preston, SP, Doerflinger, M, Scott, HW, Allison, CC, Horton, M, Cooney, J, Pellegrini, M, Preston, SP, Doerflinger, M, Scott, HW, Allison, CC, Horton, M, Cooney, J, and Pellegrini, M

Abstract

The stress-activated protein kinases (SAPKs)/c-Jun-N-terminal-kinases (JNK) are members of the mitogen-activated protein kinase family. These kinases are responsible for transducing cellular signals through a phosphorylation-dependent signaling cascade. JNK activation in immune cells can lead to a range of critical cellular responses that include proliferation, differentiation and apoptosis. MKK4 is a SAPK that can activate both JNK1 and JNK2; however, its role in T-cell development and function has been controversial. Additionally, loss of either JNK1 or JNK2 has opposing effects in the generation of T-cell immunity to viral infection and cancer. We used mice with a conditional loss of MKK4 in T cells to investigate the in vivo role of MKK4 in T-cell development and function during lymphocytic choriomeningitis virus (LCMV) infection. We found no physiologically relevant differences in T-cell responses or immunity to either acute or chronic LCMV in the absence of MKK4.

Published
2021

16. Targeting the Extrinsic Pathway of Hepatocyte Apoptosis Promotes Clearance of Plasmodium Liver Infection

Author

Ebert, G, Lopaticki, S, O'Neill, MT, Steel, RWJ, Doerflinger, M, Rajasekaran, P, Yang, ASP, Erickson, S, Ioannidis, L, Arandjelovic, P, Mackiewicz, L, Allison, C, Silke, J, Pellegrini, M, Boddey, JA, Ebert, G, Lopaticki, S, O'Neill, MT, Steel, RWJ, Doerflinger, M, Rajasekaran, P, Yang, ASP, Erickson, S, Ioannidis, L, Arandjelovic, P, Mackiewicz, L, Allison, C, Silke, J, Pellegrini, M, and Boddey, JA

Abstract

Plasmodium sporozoites infect the liver and develop into exoerythrocytic merozoites that initiate blood-stage disease. The hepatocyte molecular pathways that permit or abrogate parasite replication and merozoite formation have not been thoroughly explored, and a deeper understanding may identify therapeutic strategies to mitigate malaria. Cellular inhibitor of apoptosis (cIAP) proteins regulate cell survival and are co-opted by intracellular pathogens to support development. Here, we show that cIAP1 levels are upregulated during Plasmodium liver infection and that genetic or pharmacological targeting of cIAPs using clinical-stage antagonists preferentially kills infected hepatocytes and promotes immunity. Using gene-targeted mice, the mechanism was defined as TNF-TNFR1-mediated apoptosis via caspases 3 and 8 to clear parasites. This study reveals the importance of cIAPs to Plasmodium infection and demonstrates that host-directed antimalarial drugs can eliminate liver parasites and induce immunity while likely providing a high barrier to resistance in the parasite.

Published
2020

17. Flexible Usage and Interconnectivity of Diverse Cell Death Pathways Protect against Intracellular Infection

Author

Doerflinger, M, Deng, Y, Whitney, P, Salvamoser, R, Engel, S, Kueh, AJ, Tai, L, Bachem, A, Gressier, E, Geoghegan, ND, Wilcox, S, Rogers, KL, Garnham, AL, Dengler, MA, Bader, SM, Ebert, G, Pearson, JS, De Nardo, D, Wang, N, Yang, C, Pereira, M, Bryant, CE, Strugnell, RA, Vince, JE, Pellegrini, M, Strasser, A, Bedoui, S, Herold, MJ, Doerflinger, M, Deng, Y, Whitney, P, Salvamoser, R, Engel, S, Kueh, AJ, Tai, L, Bachem, A, Gressier, E, Geoghegan, ND, Wilcox, S, Rogers, KL, Garnham, AL, Dengler, MA, Bader, SM, Ebert, G, Pearson, JS, De Nardo, D, Wang, N, Yang, C, Pereira, M, Bryant, CE, Strugnell, RA, Vince, JE, Pellegrini, M, Strasser, A, Bedoui, S, and Herold, MJ

Abstract

Programmed cell death contributes to host defense against pathogens. To investigate the relative importance of pyroptosis, necroptosis, and apoptosis during Salmonella infection, we infected mice and macrophages deficient for diverse combinations of caspases-1, -11, -12, and -8 and receptor interacting serine/threonine kinase 3 (RIPK3). Loss of pyroptosis, caspase-8-driven apoptosis, or necroptosis had minor impact on Salmonella control. However, combined deficiency of these cell death pathways caused loss of bacterial control in mice and their macrophages, demonstrating that host defense can employ varying components of several cell death pathways to limit intracellular infections. This flexible use of distinct cell death pathways involved extensive cross-talk between initiators and effectors of pyroptosis and apoptosis, where initiator caspases-1 and -8 also functioned as executioners when all known effectors of cell death were absent. These findings uncover a highly coordinated and flexible cell death system with in-built fail-safe processes that protect the host from intracellular infections.

Published
2020

18. Mechanism and inhibition of the papain-like protease, PLpro, of SARS-CoV-2

Author

Klemm, T, Ebert, G, Calleja, DJ, Allison, CC, Richardson, LW, Bernardini, JP, Lu, BGC, Kuchel, NW, Grohmann, C, Shibata, Y, Gan, ZY, Cooney, JP, Doerflinger, M, Au, AE, Blackmore, TR, van der Heden van Noort, GJ, Geurink, PP, Ovaa, H, Newman, J, Riboldi-Tunnicliffe, A, Czabotar, PE, Mitchell, JP, Feltham, R, Lechtenberg, BC, Lowes, KN, Dewson, G, Pellegrini, M, Lessene, G, Komander, D, Klemm, T, Ebert, G, Calleja, DJ, Allison, CC, Richardson, LW, Bernardini, JP, Lu, BGC, Kuchel, NW, Grohmann, C, Shibata, Y, Gan, ZY, Cooney, JP, Doerflinger, M, Au, AE, Blackmore, TR, van der Heden van Noort, GJ, Geurink, PP, Ovaa, H, Newman, J, Riboldi-Tunnicliffe, A, Czabotar, PE, Mitchell, JP, Feltham, R, Lechtenberg, BC, Lowes, KN, Dewson, G, Pellegrini, M, Lessene, G, and Komander, D

Abstract

The SARS-CoV-2 coronavirus encodes an essential papain-like protease domain as part of its non-structural protein (nsp)-3, namely SARS2 PLpro, that cleaves the viral polyprotein, but also removes ubiquitin-like ISG15 protein modifications as well as, with lower activity, Lys48-linked polyubiquitin. Structures of PLpro bound to ubiquitin and ISG15 reveal that the S1 ubiquitin-binding site is responsible for high ISG15 activity, while the S2 binding site provides Lys48 chain specificity and cleavage efficiency. To identify PLpro inhibitors in a repurposing approach, screening of 3,727 unique approved drugs and clinical compounds against SARS2 PLpro identified no compounds that inhibited PLpro consistently or that could be validated in counterscreens. More promisingly, non-covalent small molecule SARS PLpro inhibitors also target SARS2 PLpro, prevent self-processing of nsp3 in cells and display high potency and excellent antiviral activity in a SARS-CoV-2 infection model.

Published
2020

19. BCL-2 family protein BOK is a positive regulator of uridine metabolism in mammals

Author

Srivastava, R, Cao, Z, Nedeva, C, Naim, S, Bachmann, D, Rabachini, T, Gangoda, L, Shahi, S, Glab, J, Menassa, J, Osellame, L, Nelson, T, Fernandez-Marrero, Y, Brown, F, Wei, A, Ke, F, O'Reilly, L, Doerflinger, M, Allison, C, Kueh, A, Ramsay, R, Smith, BJ, Mathivanan, S, Kaufmann, T, Puthalakath, H, Srivastava, R, Cao, Z, Nedeva, C, Naim, S, Bachmann, D, Rabachini, T, Gangoda, L, Shahi, S, Glab, J, Menassa, J, Osellame, L, Nelson, T, Fernandez-Marrero, Y, Brown, F, Wei, A, Ke, F, O'Reilly, L, Doerflinger, M, Allison, C, Kueh, A, Ramsay, R, Smith, BJ, Mathivanan, S, Kaufmann, T, and Puthalakath, H

Abstract

BCL-2 family proteins regulate the mitochondrial apoptotic pathway. BOK, a multidomain BCL-2 family protein, is generally believed to be an adaptor protein similar to BAK and BAX, regulating the mitochondrial permeability transition during apoptosis. Here we report that BOK is a positive regulator of a key enzyme involved in uridine biosynthesis; namely, uridine monophosphate synthetase (UMPS). Our data suggest that BOK expression enhances UMPS activity, cell proliferation, and chemosensitivity. Genetic deletion of Bok results in chemoresistance to 5-fluorouracil (5-FU) in different cell lines and in mice. Conversely, cancer cells and primary tissues that acquire resistance to 5-FU down-regulate BOK expression. Furthermore, we also provide evidence for a role for BOK in nucleotide metabolism and cell cycle regulation. Our results have implications in developing BOK as a biomarker for 5-FU resistance and have the potential for the development of BOK-mimetics for sensitizing 5-FU-resistant cancers.

Published
2019

20. Mycobacterium tuberculosis: Rewiring host cell signaling to promote infection

Author

Stutz, MD, Clark, MP, Doerflinger, M, Pellegrini, M, Stutz, MD, Clark, MP, Doerflinger, M, and Pellegrini, M

Abstract

The ability of Mycobacterium tuberculosis to cause disease hinges upon successfully thwarting the innate defenses of the macrophage host cell. The pathogen's trump card is its armory of virulence factors that throw normal host cell signaling into disarray. This process of subverting the macrophage begins upon entry into the cell, when M. tuberculosis actively inhibits the fusion of the bacilli-laden phagosomes with lysosomes. The pathogen then modulates an array of host signal transduction pathways, which dampens the macrophage's host-protective cytokine response, while simultaneously adapting host cell metabolism to stimulate lipid body accumulation. Mycobacterium tuberculosis also renovates the surface of its innate host cells by altering the expression of key molecules required for full activation of the adaptive immune response. Finally, the pathogen coordinates its exit from the host cell by shifting the balance from the host-protective apoptotic cell death program toward a lytic form of host cell death. Thus, M. tuberculosis exploits its extensive repertoire of virulence factors in order to orchestrate the infection process to facilitate its growth, dissemination, and entry into latency. This review offers critical insights into the most recent advances in our knowledge of how M. tuberculosis manipulates host cell signaling. An appreciation of such interactions between the pathogen and host is critical for guiding novel therapies and understanding the factors that lead to the development of active disease in only a subset of exposed individuals.

Published
2018

21. CRISPR/Cas9-The ultimate weapon to battle infectious diseases?

Author

Doerflinger, M, Forsyth, W, Ebert, G, Pellegrini, M, Herold, MJ, Doerflinger, M, Forsyth, W, Ebert, G, Pellegrini, M, and Herold, MJ

Abstract

Infectious diseases are a leading cause of death worldwide. Novel therapeutics are urgently required to treat multidrug-resistant organisms such as Mycobacterium tuberculosis and to mitigate morbidity and mortality caused by acute infections such as malaria and dengue fever virus as well as chronic infections such as human immunodeficiency virus-1 and hepatitis B virus. The clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated protein 9 (Cas9) system, which has revolutionized biomedical research, holds great promise for the identification and validation of novel drug targets. Since its discovery as an adaptive immune system in prokaryotes, the CRISPR/Cas9 system has been developed into a multi-faceted genetic modification tool, which can now be used to induce gene deletions or specific gene insertions, such as conditional alleles or endogenous reporters in virtually any organism. The generation of CRISPR/Cas9 libraries that can be used to perform phenotypic whole genome screens provides an important new tool that will aid in the identification of critical host factors involved in the pathogenesis of infectious diseases. In this review, we will discuss the development and recent applications of the CRISPR/Cas9 system used to identify novel regulators, which might become important in the fight against infectious diseases.

Published
2017

24. Chemical chaperone TUDCA prevents apoptosis and improves survival during polymicrobial sepsis in mice

Author

Doerflinger, M, Glab, J, Nedeva, C, Jose, I, Lin, A, O'Reilly, L, Allison, C, Pellegrini, M, Hotchkiss, RS, Puthalakath, H, Doerflinger, M, Glab, J, Nedeva, C, Jose, I, Lin, A, O'Reilly, L, Allison, C, Pellegrini, M, Hotchkiss, RS, and Puthalakath, H

Abstract

Sepsis-induced lymphopenia is a major cause of morbidities in intensive care units and in populations with chronic conditions such as renal failure, diabetes, HIV and alcohol abuse. Currently, other than supportive care and antibiotics, there are no treatments for this condition. We developed an in vitro assay to understand the role of the ER-stress-mediated apoptosis process in lymphocyte death during polymicrobial sepsis, which was reproducible in in vivo mouse models. Modulating ER stress using chemical chaperones significantly reduced the induction of the pro-apoptotic protein Bim both in vitro and in mice. Furthermore, in a 'two-hit' pneumonia model in mice, we have been able to demonstrate that administration of the chemical chaperone TUDCA helped to maintain lymphocyte homeostasis by significantly reducing lymphocyte apoptosis and this correlated with four-fold improvement in survival. Our results demonstrate a novel therapeutic opportunity for treating sepsis-induced lymphopenia in humans.

Published
2016

25. Variola virus F1L is a Bcl-2-like protein that unlike its vaccinia virus counterpart inhibits apoptosis independent of Bim

Author

Marshall, B, Puthalakath, H, Caria, S, Chugh, S, Doerflinger, M, Colman, PM, Kvansakul, M, Marshall, B, Puthalakath, H, Caria, S, Chugh, S, Doerflinger, M, Colman, PM, and Kvansakul, M

Abstract

Subversion of host cell apoptosis is an important survival strategy for viruses to ensure their own proliferation and survival. Certain viruses express proteins homologous in sequence, structure and function to mammalian pro-survival B-cell lymphoma 2 (Bcl-2) proteins, which prevent rapid clearance of infected host cells. In vaccinia virus (VV), the virulence factor F1L was shown to be a potent inhibitor of apoptosis that functions primarily be engaging pro-apoptotic Bim. Variola virus (VAR), the causative agent of smallpox, harbors a homolog of F1L of unknown function. We show that VAR F1L is a potent inhibitor of apoptosis, and unlike all other characterized anti-apoptotic Bcl-2 family members lacks affinity for the Bim Bcl-2 homology 3 (BH3) domain. Instead, VAR F1L engages Bid BH3 as well as Bak and Bax BH3 domains. Unlike its VV homolog, variola F1L only protects against Bax-mediated apoptosis in cellular assays. Crystal structures of variola F1L bound to Bid and Bak BH3 domains reveal that variola F1L forms a domain-swapped Bcl-2 fold, which accommodates Bid and Bak BH3 in the canonical Bcl-2-binding groove, in a manner similar to VV F1L. Despite the observed conservation of structure and sequence, variola F1L inhibits apoptosis using a startlingly different mechanism compared with its VV counterpart. Our results suggest that unlike during VV infection, Bim neutralization may not be required during VAR infection. As molecular determinants for the human-specific tropism of VAR remain essentially unknown, identification of a different mechanism of action and utilization of host factors used by a VAR virulence factor compared with its VV homolog suggest that studying VAR directly may be essential to understand its unique tropism.

Published
2015

28. CRISPR/Cas9-The ultimate weapon to battle infectious diseases?

Author

Doerflinger, M., Forsyth, W., Ebert, G., Pellegrini, M., and Herold, M.J.

Subjects
*COMMUNICABLE diseases, *CAUSES of death, *CRISPRS, *MULTIDRUG resistance, *PROKARYOTES, *MICROBIAL genetics
Abstract

Infectious diseases are a leading cause of death worldwide. Novel therapeutics are urgently required to treat multidrug-resistant organisms such as Mycobacterium tuberculosis and to mitigate morbidity and mortality caused by acute infections such as malaria and dengue fever virus as well as chronic infections such as human immunodeficiency virus-1 and hepatitis B virus. The clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated protein 9 (Cas9) system, which has revolutionized biomedical research, holds great promise for the identification and validation of novel drug targets. Since its discovery as an adaptive immune system in prokaryotes, the CRISPR/Cas9 system has been developed into a multi-faceted genetic modification tool, which can now be used to induce gene deletions or specific gene insertions, such as conditional alleles or endogenous reporters in virtually any organism. The generation of CRISPR/Cas9 libraries that can be used to perform phenotypic whole genome screens provides an important new tool that will aid in the identification of critical host factors involved in the pathogenesis of infectious diseases. In this review, we will discuss the development and recent applications of the CRISPR/Cas9 system used to identify novel regulators, which might become important in the fight against infectious diseases. [ABSTRACT FROM AUTHOR]

Published
2017
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31. Cre transgene results in global attenuation of the cAMP/PKA pathway.

Author

Gangoda, L, Doerflinger, M, Lee, YY, Rahimi, A, Etemadi, N, Chau, D, Milla, L, O'Connor, L, Puthalakath, H, Gangoda, L, Doerflinger, M, Lee, YY, Rahimi, A, Etemadi, N, Chau, D, Milla, L, O'Connor, L, and Puthalakath, H

Abstract

Use of the cre transgene in in vivo mouse models to delete a specific 'floxed' allele is a well-accepted method for studying the effects of spatially or temporarily regulated genes. During the course of our investigation into the effect of cyclic adenosine 3',5'-monophosphate-dependent protein kinase A (PKA) expression on cell death, we found that cre expression either in cultured cell lines or in transgenic mice results in global changes in PKA target phosphorylation. This consequently alters gene expression profile and changes in cytokine secretion such as IL-6. These effects are dependent on its recombinase activity and can be attributed to the upregulation of specific inhibitors of PKA (PKI). These results may explain the cytotoxicity often associated with cre expression in many transgenic animals and may also explain many of the phenotypes observed in the context of Cre-mediated gene deletion. Our results may therefore influence the interpretation of data generated using the conventional cre transgenic system.

Published
2012

34. NICHE at INova Fairfax Hospital

Author

Doerflinger, M. Carolan and Kinney, Gwen

Subjects
Nurses -- Educational aspects, Geriatric clinics -- Analysis, Aged -- Care and treatment, Health, Fairfax Hospital -- Analysis
Published
2005

36. A human model of Buruli ulcer: Provisional protocol for a Mycobacterium ulcerans controlled human infection study.

Author

Muhi S, Marshall JL, O'Brien DP, Johnson PDR, Ross G, Ramakrishnan A, Mackay LK, Doerflinger M, McCarthy JS, Jamrozik E, Osowicki J, and Stinear TP

Abstract

Critical knowledge gaps have impeded progress towards reducing the global burden of disease due to Mycobacterium ulcerans , the cause of the neglected tropical disease Buruli ulcer (BU). Development of a controlled human infection model of BU has been proposed as an experimental platform to explore host-pathogen interactions and evaluate tools for prevention, diagnosis, and treatment. We have previously introduced the use case for a new human model and identified M. ulcerans JKD8049 as a suitable challenge strain. Here, we present a provisional protocol for an initial study, for transparent peer review during the earliest stages of protocol development. Following simultaneous scientific peer review and community/stakeholder consultation of this provisional protocol, we aim to present a refined protocol for institutional review board (IRB) evaluation., Competing Interests: No competing interests were disclosed., (Copyright: © 2024 Muhi S et al.)

Published
2024
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37. Current State of Therapeutics for HTLV-1.

Author

Wang TT, Hirons A, Doerflinger M, Morris KV, Ledger S, Purcell DFJ, Kelleher AD, and Ahlenstiel CL

Subjects
Humans, Animals, Leukemia-Lymphoma, Adult T-Cell therapy, Leukemia-Lymphoma, Adult T-Cell virology, Antiviral Agents therapeutic use, Viral Vaccines immunology, Human T-lymphotropic virus 1 genetics, Human T-lymphotropic virus 1 physiology, HTLV-I Infections therapy, HTLV-I Infections virology
Abstract

Human T cell leukaemia virus type-1 (HTLV-1) is an oncogenic retrovirus that causes lifelong infection in ~5-10 million individuals globally. It is endemic to certain First Nations populations of Northern and Central Australia, Japan, South and Central America, Africa, and the Caribbean region. HTLV-1 preferentially infects CD4 + T cells and remains in a state of reduced transcription, often being asymptomatic in the beginning of infection, with symptoms developing later in life. HTLV-1 infection is implicated in the development of adult T cell leukaemia/lymphoma (ATL) and HTLV-1-associated myelopathies (HAM), amongst other immune-related disorders. With no preventive or curative interventions, infected individuals have limited treatment options, most of which manage symptoms. The clinical burden and lack of treatment options directs the need for alternative treatment strategies for HTLV-1 infection. Recent advances have been made in the development of RNA-based antiviral therapeutics for Human Immunodeficiency Virus Type-1 (HIV-1), an analogous retrovirus that shares modes of transmission with HTLV-1. This review highlights past and ongoing efforts in the development of HTLV-1 therapeutics and vaccines, with a focus on the potential for gene therapy as a new treatment modality in light of its successes in HIV-1, as well as animal models that may help the advancement of novel antiviral and anticancer interventions., Competing Interests: The authors declare no conflicts of interest.

Published
2024
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38. Mycobacterium ulcerans challenge strain selection for a Buruli ulcer controlled human infection model.

Author

Muhi S, Buultjens AH, Porter JL, Marshall JL, Doerflinger M, Pidot SJ, O'Brien DP, Johnson PDR, Lavender CJ, Globan M, McCarthy J, Osowicki J, and Stinear TP

Subjects
Humans, Anti-Bacterial Agents therapeutic use, Anti-Bacterial Agents pharmacology, Australia, Mycobacterium ulcerans genetics, Buruli Ulcer microbiology, Buruli Ulcer immunology
Abstract

Critical scientific questions remain regarding infection with Mycobacterium ulcerans, the organism responsible for the neglected tropical disease, Buruli ulcer (BU). A controlled human infection model has the potential to accelerate our knowledge of the immunological correlates of disease, to test prophylactic interventions and novel therapeutics. Here we present microbiological evidence supporting M. ulcerans JKD8049 as a suitable human challenge strain. This non-genetically modified Australian isolate is susceptible to clinically relevant antibiotics, can be cultured in animal-free and surfactant-free media, can be enumerated for precise dosing, and has stable viability following cryopreservation. Infectious challenge of humans with JKD8049 is anticipated to imitate natural infection, as M. ulcerans JKD8049 is genetically stable following in vitro passage and produces the key virulence factor, mycolactone. Also reported are considerations for the manufacture, storage, and administration of M. ulcerans JKD8049 for controlled human infection., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Muhi et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2024
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39. Necroptosis does not drive disease pathogenesis in a mouse infective model of SARS-CoV-2 in vivo.

Author

M Bader S, Cooney JP, Bhandari R, Mackiewicz L, Dayton M, Sheerin D, Georgy SR, Murphy JM, Davidson KC, Allison CC, Pellegrini M, and Doerflinger M

Subjects
Animals, Mice, Necroptosis physiology, Protein Kinases metabolism, Disease Models, Animal, Receptor-Interacting Protein Serine-Threonine Kinases metabolism, SARS-CoV-2 metabolism, COVID-19
Abstract

Necroptosis, a type of lytic cell death executed by the pseudokinase Mixed Lineage Kinase Domain-Like (MLKL) has been implicated in the detrimental inflammation caused by SARS-CoV-2 infection. We minimally and extensively passaged a single clinical SARS-CoV-2 isolate to create models of mild and severe disease in mice allowing us to dissect the role of necroptosis in SARS-CoV-2 disease pathogenesis. We infected wild-type and MLKL-deficient mice and found no significant differences in viral loads or lung pathology. In our model of severe COVID-19, MLKL-deficiency did not alter the host response, ameliorate weight loss, diminish systemic pro-inflammatory cytokines levels, or prevent lethality in aged animals. Our in vivo models indicate that necroptosis is dispensable in the pathogenesis of mild and severe COVID-19., (© 2024. The Author(s).)

Published
2024
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40. A common human MLKL polymorphism confers resistance to negative regulation by phosphorylation.

Author

Garnish SE, Martin KR, Kauppi M, Jackson VE, Ambrose R, Eng VV, Chiou S, Meng Y, Frank D, Tovey Crutchfield EC, Patel KM, Jacobsen AV, Atkin-Smith GK, Di Rago L, Doerflinger M, Horne CR, Hall C, Young SN, Cook M, Athanasopoulos V, Vinuesa CG, Lawlor KE, Wicks IP, Ebert G, Ng AP, Slade CA, Pearson JS, Samson AL, Silke J, Murphy JM, and Hildebrand JM

Subjects
Humans, Animals, Mice, Phosphorylation, Cell Membrane metabolism, Mutation, Transcription Factors metabolism, Receptor-Interacting Protein Serine-Threonine Kinases metabolism, Protein Kinases genetics, Protein Kinases metabolism, Apoptosis
Abstract

Across the globe, 2-3% of humans carry the p.Ser132Pro single nucleotide polymorphism in MLKL, the terminal effector protein of the inflammatory form of programmed cell death, necroptosis. Here we show that this substitution confers a gain in necroptotic function in human cells, with more rapid accumulation of activated MLKL S132P in biological membranes and MLKL S132P overriding pharmacological and endogenous inhibition of MLKL. In mouse cells, the equivalent Mlkl S131P mutation confers a gene dosage dependent reduction in sensitivity to TNF-induced necroptosis in both hematopoietic and non-hematopoietic cells, but enhanced sensitivity to IFN-β induced death in non-hematopoietic cells. In vivo, Mlkl S131P homozygosity reduces the capacity to clear Salmonella from major organs and retards recovery of hematopoietic stem cells. Thus, by dysregulating necroptosis, the S131P substitution impairs the return to homeostasis after systemic challenge. Present day carriers of the MLKL S132P polymorphism may be the key to understanding how MLKL and necroptosis modulate the progression of complex polygenic human disease., (© 2023. Springer Nature Limited.)

Published
2023
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41. Venetoclax, alone and in combination with the BH3 mimetic S63845, depletes HIV-1 latently infected cells and delays rebound in humanized mice.

Author

Arandjelovic P, Kim Y, Cooney JP, Preston SP, Doerflinger M, McMahon JH, Garner SE, Zerbato JM, Roche M, Tumpach C, Ong J, Sheerin D, Smyth GK, Anderson JL, Allison CC, Lewin SR, and Pellegrini M

Subjects
Humans, Animals, Mice, Bridged Bicyclo Compounds, Heterocyclic pharmacology, Bridged Bicyclo Compounds, Heterocyclic therapeutic use, Disease Models, Animal, HIV-1, HIV Seropositivity
Abstract

HIV-1 persists indefinitely in people living with HIV (PLWH) on antiretroviral therapy (ART). If ART is stopped, the virus rapidly rebounds from long-lived latently infected cells. Using a humanized mouse model of HIV-1 infection and CD4 + T cells from PLWH on ART, we investigate whether antagonizing host pro-survival proteins can prime latent cells to die and facilitate HIV-1 clearance. Venetoclax, a pro-apoptotic inhibitor of Bcl-2, depletes total and intact HIV-1 DNA in CD4 + T cells from PLWH ex vivo. This venetoclax-sensitive population is enriched for cells with transcriptionally higher levels of pro-apoptotic BH3-only proteins. Furthermore, venetoclax delays viral rebound in a mouse model of persistent HIV-1 infection, and the combination of venetoclax with the Mcl-1 inhibitor S63845 achieves a longer delay in rebound compared with either intervention alone. Thus, selective inhibition of pro-survival proteins can induce death of HIV-1-infected cells that persist on ART, extending time to viral rebound., Competing Interests: Declaration of interests The Walter and Eliza Hall Institute receives milestone and royalty payments related to venetoclax and has a commercial collaboration with Servier with respect to Mcl-1 inhibitors under which it may receive future payments. M.P. is eligible for financial benefits related to these payments. S.R.L. has received investigator-initiated, industry-funded research support from Merck Sciences, Gilead Sciences, and ViiV and provision of reagents from Infinity Pharmaceuticals, Merck Sciences, and BMS for investigator-initiated research. S.R.L. and J.L.A. have research collaborations with Merck Sciences unrelated to this work., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2023
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42. SARS-CoV-2 mouse adaptation selects virulence mutations that cause TNF-driven age-dependent severe disease with human correlates.

Author

Bader SM, Cooney JP, Sheerin D, Taiaroa G, Harty L, Davidson KC, Mackiewicz L, Dayton M, Wilcox S, Whitehead L, Rogers KL, Georgy SR, Coussens AK, Grimley SL, Corbin V, Pitt M, Coin L, Pickering R, Thomas M, Allison CC, McAuley J, Purcell DFJ, Doerflinger M, and Pellegrini M

Subjects
Young Adult, Humans, Mice, Animals, Aged, Virulence genetics, Mutation, Disease Models, Animal, SARS-CoV-2 genetics, COVID-19 genetics
Abstract

The diversity of COVID-19 disease in otherwise healthy people, from seemingly asymptomatic infection to severe life-threatening disease, is not clearly understood. We passaged a naturally occurring near-ancestral SARS-CoV-2 variant, capable of infecting wild-type mice, and identified viral genomic mutations coinciding with the acquisition of severe disease in young adult mice and lethality in aged animals. Transcriptomic analysis of lung tissues from mice with severe disease elucidated a host antiviral response dominated mainly by interferon and IL-6 pathway activation in young mice, while in aged animals, a fatal outcome was dominated by TNF and TGF-β signaling. Congruent with our pathway analysis, we showed that young TNF-deficient mice had mild disease compared to controls and aged TNF-deficient animals were more likely to survive infection. Emerging clinical correlates of disease are consistent with our preclinical studies, and our model may provide value in defining aberrant host responses that are causative of severe COVID-19.

Published
2023
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43. A human model of Buruli ulcer: The case for controlled human infection and considerations for selecting a Mycobacterium ulcerans challenge strain.

Author

Muhi S, Osowicki J, O'Brien D, Johnson PDR, Pidot S, Doerflinger M, Marshall JL, Pellegrini M, McCarthy J, and Stinear TP

Subjects
Humans, Host-Pathogen Interactions, Knowledge, Neglected Diseases, Mycobacterium ulcerans, Buruli Ulcer prevention & control
Abstract

Critical knowledge gaps regarding infection with Mycobacterium ulcerans, the cause of Buruli ulcer (BU), have impeded development of new therapeutic approaches and vaccines for prevention of this neglected tropical disease. Here, we review the current understanding of host-pathogen interactions and correlates of immune protection to explore the case for establishing a controlled human infection model of M. ulcerans infection. We also summarise the overarching safety considerations and present a rationale for selecting a suitable challenge strain., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Muhi et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2023
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44. Caspase-8-driven apoptotic and pyroptotic crosstalk causes cell death and IL-1β release in X-linked inhibitor of apoptosis (XIAP) deficiency.

Author

Hughes SA, Lin M, Weir A, Huang B, Xiong L, Chua NK, Pang J, Santavanond JP, Tixeira R, Doerflinger M, Deng Y, Yu CH, Silke N, Conos SA, Frank D, Simpson DS, Murphy JM, Lawlor KE, Pearson JS, Silke J, Pellegrini M, Herold MJ, Poon IKH, Masters SL, Li M, Tang Q, Zhang Y, Rashidi M, Geng L, and Vince JE

Subjects
Humans, Apoptosis, Caspase 1 genetics, Caspase 1 metabolism, Caspase 3 metabolism, Caspase 7 metabolism, Caspase 8 genetics, Caspase 8 metabolism, Cell Death, Interleukin-1beta genetics, Interleukin-1beta metabolism, Pyroptosis physiology, X-Linked Inhibitor of Apoptosis Protein genetics, X-Linked Inhibitor of Apoptosis Protein metabolism, Inflammasomes metabolism, NLR Family, Pyrin Domain-Containing 3 Protein metabolism
Abstract

Genetic lesions in X-linked inhibitor of apoptosis (XIAP) pre-dispose humans to cell death-associated inflammatory diseases, although the underlying mechanisms remain unclear. Here, we report that two patients with XIAP deficiency-associated inflammatory bowel disease display increased inflammatory IL-1β maturation as well as cell death-associated caspase-8 and Gasdermin D (GSDMD) processing in diseased tissue, which is reduced upon patient treatment. Loss of XIAP leads to caspase-8-driven cell death and bioactive IL-1β release that is only abrogated by combined deletion of the apoptotic and pyroptotic cell death machinery. Namely, extrinsic apoptotic caspase-8 promotes pyroptotic GSDMD processing that kills macrophages lacking both inflammasome and apoptosis signalling components (caspase-1, -3, -7, -11 and BID), while caspase-8 can still cause cell death in the absence of both GSDMD and GSDME when caspase-3 and caspase-7 are present. Neither caspase-3 and caspase-7-mediated activation of the pannexin-1 channel, or GSDMD loss, prevented NLRP3 inflammasome assembly and consequent caspase-1 and IL-1β maturation downstream of XIAP inhibition and caspase-8 activation, even though the pannexin-1 channel was required for NLRP3 triggering upon mitochondrial apoptosis. These findings uncouple the mechanisms of cell death and NLRP3 activation resulting from extrinsic and intrinsic apoptosis signalling, reveal how XIAP loss can co-opt dual cell death programs, and uncover strategies for targeting the cell death and inflammatory pathways that result from XIAP deficiency., (© 2023 The Authors.)

Published
2023
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45. A necroptosis-independent function of RIPK3 promotes immune dysfunction and prevents control of chronic LCMV infection.

Author

Preston SP, Allison CC, Schaefer J, Clow W, Bader SM, Collard S, Forsyth WO, Clark MP, Garnham AL, Li-Wai-Suen CSN, Peiris T, Teale J, Mackiewicz L, Davidson S, Doerflinger M, and Pellegrini M

Subjects
Necroptosis, CD8-Positive T-Lymphocytes metabolism, Cell Death, Receptor-Interacting Protein Serine-Threonine Kinases genetics, Receptor-Interacting Protein Serine-Threonine Kinases metabolism, Protein Kinases genetics, Protein Kinases metabolism, Lymphocytic choriomeningitis virus metabolism
Abstract

Necroptosis is a lytic and inflammatory form of cell death that is highly constrained to mitigate detrimental collateral tissue damage and impaired immunity. These constraints make it difficult to define the relevance of necroptosis in diseases such as chronic and persistent viral infections and within individual organ systems. The role of necroptotic signalling is further complicated because proteins essential to this pathway, such as receptor interacting protein kinase 3 (RIPK3) and mixed lineage kinase domain-like (MLKL), have been implicated in roles outside of necroptotic signalling. We sought to address this issue by individually defining the role of RIPK3 and MLKL in chronic lymphocytic choriomeningitis virus (LCMV) infection. We investigated if necroptosis contributes to the death of LCMV-specific CD8 + T cells or virally infected target cells during infection. We provide evidence showing that necroptosis was redundant in the pathogenesis of acute forms of LCMV (Armstrong strain) and the early stages of chronic (Docile strain) LCMV infection in vivo. The number of immune cells, their specificity and reactivity towards viral antigens and viral loads are not altered in the absence of either MLKL or RIPK3 during acute and during the early stages of chronic LCMV infection. However, we identified that RIPK3 promotes immune dysfunction and prevents control of infection at later stages of chronic LCMV disease. This was not phenocopied by the loss of MLKL indicating that the phenotype was driven by a necroptosis-independent function of RIPK3. We provide evidence that RIPK3 signaling evoked a dysregulated type 1 interferone response which we linked to an impaired antiviral immune response and abrogated clearance of chronic LCMV infection., (© 2023. The Author(s).)

Published
2023
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46. Epigenetic Silencing of RIPK3 in Hepatocytes Prevents MLKL-mediated Necroptosis From Contributing to Liver Pathologies.

Author

Preston SP, Stutz MD, Allison CC, Nachbur U, Gouil Q, Tran BM, Duvivier V, Arandjelovic P, Cooney JP, Mackiewicz L, Meng Y, Schaefer J, Bader SM, Peng H, Valaydon Z, Rajasekaran P, Jennison C, Lopaticki S, Farrell A, Ryan M, Howell J, Croagh C, Karunakaran D, Schuster-Klein C, Murphy JM, Fifis T, Christophi C, Vincan E, Blewitt ME, Thompson A, Boddey JA, Doerflinger M, and Pellegrini M

Subjects
Humans, Female, Male, Mice, Animals, Epigenesis, Genetic, Hepatocytes, Receptor-Interacting Protein Serine-Threonine Kinases genetics, Protein Kinases genetics, Necroptosis, Non-alcoholic Fatty Liver Disease genetics
Abstract

Background & Aims: Necroptosis is a highly inflammatory mode of cell death that has been implicated in causing hepatic injury including steatohepatitis/ nonalcoholic steatohepatitis (NASH); however, the evidence supporting these claims has been controversial. A comprehensive, fundamental understanding of cell death pathways involved in liver disease critically underpins rational strategies for therapeutic intervention. We sought to define the role and relevance of necroptosis in liver pathology., Methods: Several animal models of human liver pathology, including diet-induced steatohepatitis in male mice and diverse infections in both male and female mice, were used to dissect the relevance of necroptosis in liver pathobiology. We applied necroptotic stimuli to primary mouse and human hepatocytes to measure their susceptibility to necroptosis. Paired liver biospecimens from patients with NASH, before and after intervention, were analyzed. DNA methylation sequencing was also performed to investigate the epigenetic regulation of RIPK3 expression in primary human and mouse hepatocytes., Results: Identical infection kinetics and pathologic outcomes were observed in mice deficient in an essential necroptotic effector protein, MLKL, compared with control animals. Mice lacking MLKL were indistinguishable from wild-type mice when fed a high-fat diet to induce NASH. Under all conditions tested, we were unable to induce necroptosis in hepatocytes. We confirmed that a critical activator of necroptosis, RIPK3, was epigenetically silenced in mouse and human primary hepatocytes and rendered them unable to undergo necroptosis., Conclusions: We have provided compelling evidence that necroptosis is disabled in hepatocytes during homeostasis and in the pathologic conditions tested in this study., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2022
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47. Ubiquitylation of RIPK3 beyond-the-RHIM can limit RIPK3 activity and cell death.

Author

Frank D, Garnish SE, Sandow JJ, Weir A, Liu L, Clayer E, Meza L, Rashidi M, Cobbold SA, Scutts SR, Doerflinger M, Anderton H, Lawlor KE, Lalaoui N, Kueh AJ, Eng VV, Ambrose RL, Herold MJ, Samson AL, Feltham R, Murphy JM, Ebert G, Pearson JS, and Vince JE

Abstract

Pathogen recognition and TNF receptors signal via receptor interacting serine/threonine kinase-3 (RIPK3) to cause cell death, including MLKL-mediated necroptosis and caspase-8-dependent apoptosis. However, the post-translational control of RIPK3 is not fully understood. Using mass-spectrometry, we identified that RIPK3 is ubiquitylated on K469. The expression of mutant RIPK3 K469R demonstrated that RIPK3 ubiquitylation can limit both RIPK3-mediated apoptosis and necroptosis. The enhanced cell death of overexpressed RIPK3 K469R and activated endogenous RIPK3 correlated with an overall increase in RIPK3 ubiquitylation. Ripk3 K469R/K469R mice challenged with Salmonella displayed enhanced bacterial loads and reduced serum IFNγ. However, Ripk3 K469R/K469R macrophages and dermal fibroblasts were not sensitized to RIPK3-mediated apoptotic or necroptotic signaling suggesting that, in these cells, there is functional redundancy with alternate RIPK3 ubiquitin-modified sites. Consistent with this idea, the mutation of other ubiquitylated RIPK3 residues also increased RIPK3 hyper-ubiquitylation and cell death. Therefore, the targeted ubiquitylation of RIPK3 may act as either a brake or accelerator of RIPK3-dependent killing., Competing Interests: J.M.M. and A.L.S. contribute to a project developing necroptosis inhibitors in collaboration with Anaxis Pharma., (© 2022 The Authors.)

Published
2022
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48. Blood transcriptomics identifies immune signatures indicative of infectious complications in childhood cancer patients with febrile neutropenia.

Author

Haeusler GM, Garnham AL, Li-Wai-Suen CS, Clark JE, Babl FE, Allaway Z, Slavin MA, Mechinaud F, Smyth GK, Phillips B, Thursky KA, Pellegrini M, and Doerflinger M

Abstract

Objectives: Febrile neutropenia (FN) is a major cause of treatment disruption and unplanned hospitalization in childhood cancer patients. This study investigated the transcriptome of peripheral blood mononuclear cells (PBMCs) in children with cancer and FN to identify potential predictors of serious infection., Methods: Whole-genome transcriptional profiling was conducted on PBMCs collected during episodes of FN in children with cancer at presentation to the hospital (Day 1; n  = 73) and within 8-24 h (Day 2; n  = 28) after admission. Differentially expressed genes as well as gene pathways that correlated with clinical outcomes were defined for different infectious outcomes., Results: Global differences in gene expression associated with specific immune responses in children with FN and documented infection, compared to episodes without documented infection, were identified at admission. These differences resolved over the subsequent 8-24 h. Distinct gene signatures specific for bacteraemia were identified both at admission and on Day 2. Differences in gene signatures between episodes with bacteraemia and episodes with bacterial infection, viral infection and clinically defined infection were also observed. Only subtle differences in gene expression profiles between non-bloodstream bacterial and viral infections were identified., Conclusion: Blood transcriptome immune profiling analysis during FN episodes may inform monitoring and aid in defining adequate treatment for different infectious aetiologies in children with cancer., Competing Interests: The authors declare no conflict of interest., (© 2022 The Authors. Clinical & Translational Immunology published by John Wiley & Sons Australia, Ltd on behalf of Australian and New Zealand Society for Immunology, Inc.)

Published
2022
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49. Tankyrase-mediated ADP-ribosylation is a regulator of TNF-induced death.

Author

Liu L, Sandow JJ, Leslie Pedrioli DM, Samson AL, Silke N, Kratina T, Ambrose RL, Doerflinger M, Hu Z, Morrish E, Chau D, Kueh AJ, Fitzibbon C, Pellegrini M, Pearson JS, Hottiger MO, Webb AI, Lalaoui N, and Silke J

Abstract

Tumor necrosis factor (TNF) is a key component of the innate immune response. Upon binding to its receptor, TNFR1, it promotes production of other cytokines via a membrane-bound complex 1 or induces cell death via a cytosolic complex 2. To understand how TNF-induced cell death is regulated, we performed mass spectrometry of complex 2 and identified tankyrase-1 as a native component that, upon a death stimulus, mediates complex 2 poly-ADP-ribosylation (PARylation). PARylation promotes recruitment of the E3 ligase RNF146, resulting in proteasomal degradation of complex 2, thereby limiting cell death. Expression of the ADP-ribose-binding/hydrolyzing severe acute respiratory syndrome coronavirus 2 macrodomain sensitizes cells to TNF-induced death via abolishing complex 2 PARylation. This suggests that disruption of ADP-ribosylation during an infection can prime a cell to retaliate with an inflammatory cell death.

Published
2022
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50. Insights Into Drug Repurposing, as Well as Specificity and Compound Properties of Piperidine-Based SARS-CoV-2 PLpro Inhibitors.

Author

Calleja DJ, Kuchel N, Lu BGC, Birkinshaw RW, Klemm T, Doerflinger M, Cooney JP, Mackiewicz L, Au AE, Yap YQ, Blackmore TR, Katneni K, Crighton E, Newman J, Jarman KE, Call MJ, Lechtenberg BC, Czabotar PE, Pellegrini M, Charman SA, Lowes KN, Mitchell JP, Nachbur U, Lessene G, and Komander D

Abstract

The COVID-19 pandemic continues unabated, emphasizing the need for additional antiviral treatment options to prevent hospitalization and death of patients infected with SARS-CoV-2. The papain-like protease (PLpro) domain is part of the SARS-CoV-2 non-structural protein (nsp)-3, and represents an essential protease and validated drug target for preventing viral replication. PLpro moonlights as a deubiquitinating (DUB) and deISGylating enzyme, enabling adaptation of a DUB high throughput (HTS) screen to identify PLpro inhibitors. Drug repurposing has been a major focus through the COVID-19 pandemic as it may provide a fast and efficient route for identifying clinic-ready, safe-in-human antivirals. We here report our effort to identify PLpro inhibitors by screening the ReFRAME library of 11,804 compounds, showing that none inhibit PLpro with any reasonable activity or specificity to justify further progression towards the clinic. We also report our latest efforts to improve piperidine-scaffold inhibitors, 5c and 3k , originally developed for SARS-CoV PLpro. We report molecular details of binding and selectivity, as well as in vitro absorption, distribution, metabolism and excretion (ADME) studies of this scaffold. A co-crystal structure of SARS-CoV-2 PLpro bound to inhibitor 3k guides medicinal chemistry efforts to improve binding and ADME characteristics. We arrive at compounds with improved and favorable solubility and stability characteristics that are tested for inhibiting viral replication. Whilst still requiring significant improvement, our optimized small molecule inhibitors of PLpro display decent antiviral activity in an in vitro SARS-CoV-2 infection model, justifying further optimization., Competing Interests: DK serves on the Scientific Advisory Board of BioTheryX Inc. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Calleja, Kuchel, Lu, Birkinshaw, Klemm, Doerflinger, Cooney, Mackiewicz, Au, Yap, Blackmore, Katneni, Crighton, Newman, Jarman, Call, Lechtenberg, Czabotar, Pellegrini, Charman, Lowes, Mitchell, Nachbur, Lessene and Komander.)

Published
2022
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