Alterations to the cardiac metabolome induced by chronic<i>T. cruzi</i>infection relate to the degree of cardiac pathology

Hoffman, Kristyn; Liu, Zongyuan; Hossain, Ekram; Bottazzi, María Elena; Hotez, Peter J.; Jones, Kathryn M.; McCall, Laura-Isobel

doi:10.1101/2020.09.17.300608

Cited by 4 publications

(6 citation statements)

References 55 publications

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“…Based on our findings of tissue location-specific adverse metabolic trajectories during infection (Fig. 1C) and our prior observations of relation between experimental CD severity and magnitude of metabolic perturbation [31][32][33] , we hypothesized that the lack of clinical efficacy of BNZ in late-stage CD may be due to an inability to restore infection-induced metabolic alterations at specific cardiac locations. To test this hypothesis, mice were treated with BNZ standard-of-care (100 mg/kg BNZ for 18 days, beginning 69 days post-infection) (Fig.…”

Section: Standard-of-care Bnz Does Not Fully Restore Metabolic Altera...mentioning

confidence: 69%

“…We addressed these questions in the context of T. cruzi infection over time and following treatment with either the standard-of-care antiparasitic BNZ 56 , or an experimental combination of BNZ and Tc24-C4/E6020-SE therapeutic vaccine, with a focus on infection-induced metabolic alterations. We elected to focus on metabolism given its extensive association with cardiac function 57 -59 , our findings of correlations between disease severity and degree of metabolic perturbation in chronic CD 32 , and our prior report of improved infection outcome via metabolic modulation in acute CD, independent of parasite burden 33 .…”

Section: Discussionmentioning

confidence: 99%

“…In CD, gradients of parasite burden, metabolic alterations and immune responses were observed in the heart 30,31 . Cardiac metabolic alterations were correlated to the degree of cardiac inflammation, and to serum profibrotic cytokine levels 32 . These metabolic alterations were causally linked to T. cruzi infection outcomes, and metabolism-targeting strategies prevented acute CD mortality in mouse models 33 .…”

Section: Introductionmentioning

confidence: 99%

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Localized cardiac metabolic trajectories and post-infectious metabolic sequelae in experimental Chagas disease

Liu

Ulrich

Kendricks

et al. 2023

Preprint

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Post-infectious conditions, where clinical symptoms fail to resolve even after pathogen clearance, present major health burdens. However, the mechanisms involved remain poorly understood. In Chagas disease (CD), caused by the parasite Trypanosoma cruzi, antiparasitic agents can clear T. cruzi but late-stage treatment does not improve clinical cardiac outcomes. In this study, we revealed differential metabolic trajectories of cardiac regions during T. cruzi infection, matching sites of clinical symptoms. Incomplete, region-specific, cardiac metabolic restoration was observed in animals treated with the antiparasitic benznidazole, even though parasites were successfully cleared. In contrast, superior metabolic restoration was observed for a combination treatment of reduced-dose benznidazole plus an immunotherapy (Tc24-C4 T. cruzi flagellar protein and TLR4 agonist adjuvant), even though parasite burden reduction was lower. Overall, these results provide a mechanism to explain prior clinical treatment failures in CD and to test novel candidate treatment regimens. More broadly, our results demonstrate a link between persistent metabolic perturbation and post-infectious conditions, with broad implications for our understanding of post-infectious disease sequelae.

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Section: Standard-of-care Bnz Does Not Fully Restore Metabolic Altera...mentioning

confidence: 69%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Localized cardiac metabolic trajectories and post-infectious metabolic sequelae in experimental Chagas disease

Liu

Ulrich

Kendricks

et al. 2023

Preprint

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“…Elevation of PCs is also a marker of the switch from monocyte to macrophage [ 33 ]. Increased PCs may also reflect phagolysosome membranes given the intracellular lifestyle of L. major [ 30 ], though PC elevation was also observed during infection with T. cruzi, which resides in the cytosol [ 34 , 35 ]. Lastly, PCs may also be derived from other immune cells attracted to the site of infection, such as T cells and dendritic cells.…”

Section: Discussionmentioning

confidence: 99%

Dysregulation of Glycerophosphocholines in the Cutaneous Lesion Caused by Leishmania major in Experimental Murine Models

et al. 2021

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Cutaneous leishmaniasis (CL) is the most common disease form caused by a Leishmania parasite infection and considered a neglected tropical disease (NTD), affecting 700,000 to 1.2 million new cases per year in the world. Leishmania major is one of several different species of the Leishmania genus that can cause CL. Current CL treatments are limited by adverse effects and rising resistance. Studying disease metabolism at the site of infection can provide knowledge of new targets for host-targeted drug development. In this study, tissue samples were collected from mice infected in the ear or footpad with L. major and analyzed by untargeted liquid chromatography-tandem mass spectrometry (LC-MS/MS). Significant differences in overall metabolite profiles were noted in the ear at the site of the lesion. Interestingly, lesion-adjacent, macroscopically healthy sites also showed alterations in specific metabolites, including selected glycerophosphocholines (PCs). Host-derived PCs in the lower m/z range (m/z 200–799) showed an increase with infection in the ear at the lesion site, while those in the higher m/z range (m/z 800–899) were decreased with infection at the lesion site. Overall, our results expanded our understanding of the mechanisms of CL pathogenesis through host metabolism and may lead to new curative measures against infection with Leishmania.

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“…Although cecal and cervical azithromycin levels were comparable, C. trachomatis were less readily cleared from the cecum ( Yeruva et al., 2013 ). Importantly, although PK/PD studies are usually performed in healthy animals, there is a need to expand these studies to the context of infection, where select disease tropism may alter drug distribution and clearance ( Hoffman et al., 2020 ). Tropism considerations may thus be a major reason for the failure in vivo of new chemical entities that were promising in vitro.…”

Section: Translational Implicationsmentioning

confidence: 99%

Quo vadis? Central Rules of Pathogen and Disease Tropism

McCall

2021

Front. Cell. Infect. Microbiol.

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Understanding why certain people get sick and die while others recover or never become ill is a fundamental question in biomedical research. A key determinant of this process is pathogen and disease tropism: the locations that become infected (pathogen tropism), and the locations that become damaged (disease tropism). Identifying the factors that regulate tropism is essential to understand disease processes, but also to drive the development of new interventions. This review intersects research from across infectious diseases to define the central mediators of disease and pathogen tropism. This review also highlights methods of study, and translational implications. Overall, tropism is a central but under-appreciated aspect of infection pathogenesis which should be at the forefront when considering the development of new methods of intervention.

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Alterations to the cardiac metabolome induced by chronicT. cruziinfection relate to the degree of cardiac pathology

Cited by 4 publications

References 55 publications

Localized cardiac metabolic trajectories and post-infectious metabolic sequelae in experimental Chagas disease

Localized cardiac metabolic trajectories and post-infectious metabolic sequelae in experimental Chagas disease

Dysregulation of Glycerophosphocholines in the Cutaneous Lesion Caused by Leishmania major in Experimental Murine Models

Quo vadis? Central Rules of Pathogen and Disease Tropism

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