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1. Zinc-limited Mycobacterium tuberculosis stimulate distinct responses in macrophages compared with standard zinc-replete bacteria

   https://doi.org/10.1128/iai.00578-24  

   Marcantonio, Endrei; Burger, Allexa D; Chang, Kelly H; Hoffmann, Fukun W; Fu, Yuanyuan; Khadka, Vedbar S; Smagghe, Benoit J; Deng, Youping; Hoffmann, Peter R; Prisic, Sladjana (March 2025, Infection and Immunity)

   Shin, Sunny (Ed.)

   ABSTRACT Tuberculosis (TB) is notoriously difficult to treat, likely due to the complex host-pathogen interactions driven by pathogen heterogeneity. An understudied area of TB pathogenesis is host responses toMycobacterium tuberculosisbacteria (Mtb) that are limited in zinc ions. This distinct population resides in necrotic granulomas and sputum and could be the key player in tuberculosis pathogenicity. In this study, we tested the hypothesis that macrophages differentiate between Mtb grown under zinc limitation or in the standard zinc-replete medium. Using several macrophage infection models, such as murine RAW 264.7 and murine bone marrow-derived macrophages (BMDMs), as well as human THP-1-derived macrophages, we show that macrophages infected with zinc-limited Mtb have increased bacterial burden compared with macrophages infected with zinc-replete Mtb. We further demonstrate that macrophage infection with zinc-limited Mtb trigger higher production of reactive oxygen species (ROS) and cause more macrophage death. Furthermore, the increased ROS production is linked to the increased phagocytosis of zinc-limited Mtb, whereas cell death is not. Finally, transcriptional analysis of RAW 264.7 macrophages demonstrates that macrophages have more robust pro-inflammatory responses when infected with zinc-limited Mtb than zinc-replete Mtb. Together, our findings suggest that Mtb’s access to zinc affects their interaction with macrophages and that zinc-limited Mtb may be influencing TB progression. Therefore, zinc availability in bacterial growth medium should be considered in TB drug and vaccine developments. 

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2. Detection of Mycobacterium bovis in Free‐Ranging Sapajus nigritus , Argentina

   https://doi.org/10.1111/zph.13189  

   Lamattina, Daniela; Martinez, Mariela Florencia; Couto, Esteban Manuel; Scarry, Clara; Tujague, María Paula; Arrabal, Juan Pablo; Di_Nucci, Dante Luis; Lestani, Eduardo Ariel; Bombelli, Diego; López, Marcela Andrea; et al (February 2025, Zoonoses and Public Health)

   ABSTRACT Mycobacterium bovisandMycobacterium tuberculosisare the most relevant among pathogenic mycobacteria, both belonging to theM. tuberculosiscomplex (MTC). Samples of blood, liver, spleen, kidneys, lungs and caseous tubercles were collected from a free‐ranging juvenile black capuchin monkey (Sapajus nigritus) showing non‐specific signs of illness. Macroscopic findings included emaciation, a caseous lesion in a tooth and gingiva, disseminated nodules in both lungs and left kidney parenchyma and caseous nodules on the pleura and mesentery. The lesions suggested MTC infection, a diagnosis subsequently supported in the lung by bacilloscopy, immunochromatography and PCR. A multiplex PCR further validated the presence ofM. bovisgenes. Cases of tuberculosis in platyrrhine primates have only been reported in animals maintained in captivity. We describe for the first time the pathological and molecular findings ofM. bovisinfection in a free‐ranging platyrrhine monkey within an area of intense human–wildlife interaction, which has important implications from a One Health perspective. 

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3. Identifying social behaviours related to disease transmission in banded mongoose from accelerometer data

   https://doi.org/10.1002/2688-8319.12228  

   Van de Vuurst, Paige; Alexander, Kathleen A. (July 2023, Ecological Solutions and Evidence)

   Abstract Current methods for identifying and predicting infectious disease dynamics in wildlife populations are limited. Pathogen transmission dynamics can be complex, influenced by behavioural interactions between and among hosts, pathogens and their environments. These behaviours may also be influenced directly by observers, with observational research methods being limited to habituated species. Banded mongooseMungos mungoare social, medium size carnivores infected with the novel tuberculosis pathogenMycobacterium mungi. This pathogen is principally transmitted during normal olfactory communication behaviours. Banded mongoose behavioural responses to humans change over the landscape, limiting the use of direct observational approaches in areas where mongoose are threatened and flee.The accelerometers in bio‐logging devices have been used previously to identify distinct behaviours in wildlife species, providing a tool to quantifying specific behaviours in ecological studies. We deployed Axy‐5X model accelerometers (TechnoSmArt) on captive mongoose to determine whether accelerometers could be used to identify key mongoose behavioural activities previously associated withM. mungitransmission.After two collaring periods, we determined that three distinct behavioural activities could be identified in the accelerometer data: bipedal vertical vigilance, running and scent marking activity; behaviours that have been shown to vary across land type in the banded mongoose.Results from this work advance current data analytics and provide modifications to data analysis works flows, updating and expanding upon current methodologies. We also provide preliminary evidence of successful mathematical classification of the target behaviours, supporting the future use of these devices. Methods applied here may allow model estimates ofM. mungitransmission in free‐ranging mongoose to be refined with possible application to other systems where direct observation approaches have limited application. 

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4. Quantitative prediction of conditional vulnerabilities in regulatory and metabolic networks using PRIME

   https://doi.org/10.1038/s41540-021-00205-6  

   Immanuel, Selva Rupa; Arrieta-Ortiz, Mario L.; Ruiz, Rene A.; Pan, Min; Lopez Garcia de Lomana, Adrian; Peterson, Eliza J.; Baliga, Nitin S. (December 2021, npj Systems Biology and Applications)

   Abstract The ability of Mycobacterium tuberculosis (Mtb) to adopt heterogeneous physiological states underlies its success in evading the immune system and tolerating antibiotic killing. Drug tolerant phenotypes are a major reason why the tuberculosis (TB) mortality rate is so high, with over 1.8 million deaths annually. To develop new TB therapeutics that better treat the infection (faster and more completely), a systems-level approach is needed to reveal the complexity of network-based adaptations of Mtb. Here, we report a new predictive model called PRIME ( P henotype of R egulatory influences I ntegrated with M etabolism and E nvironment) to uncover environment-specific vulnerabilities within the regulatory and metabolic networks of Mtb. Through extensive performance evaluations using genome-wide fitness screens, we demonstrate that PRIME makes mechanistically accurate predictions of context-specific vulnerabilities within the integrated regulatory and metabolic networks of Mtb, accurately rank-ordering targets for potentiating treatment with frontline drugs. 

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5. Colony-stimulating factor-1- and interleukin-34-derived macrophages differ in their susceptibility to Mycobacterium marinum

   https://doi.org/10.1002/JLB.1A0919-147R  

   Popovic, Milan; Yaparla, Amulya; Paquin-Proulx, Dominic; Koubourli, Daphne V.; Webb, Rose; Firmani, Marcia; Grayfer, Leon (September 2019, Journal of Leukocyte Biology)

   Abstract Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis (TB), remains the leading global cause of death from an infectious agent. Mycobacteria thrive within their host Mϕs and presently, there is no animal model that permits combined in vitro and in vivo study of mycobacteria-host Mϕ interactions. Mycobacterium marinum (Mm), which causes TB in aquatic vertebrates, has become a promising model for TB research, owing to its close genetic relatedness to Mtb and the availability of alternative, natural host aquatic animal models. Here, we adopted the Xenopus laevis frog-Mm surrogate infection model to study host Mϕ susceptibility and resistance to mycobacteria. Mϕ differentiation is regulated though the CSF-1 receptor (CSF-1R), which is activated by CSF-1 and the unrelated IL-34 cytokines. Using combined in vitro and in vivo approaches, we demonstrated that CSF-1-Mϕs exacerbate Mm infections, are more susceptible to mycobacterial entry and are less effective at killing this pathogen. By contrast, IL-34-Mϕs confer anti-Mm resistance in vivo, are less susceptible to Mm entry and more effectively eliminate internalized mycobacteria. Moreover, we showed that the human CSF-1- and IL-34-Mϕs are likewise, respectively, susceptible and resistant to mycobacteria, and that both frog and human CSF-1-Mϕs are more prone to the spread of mycobacteria and to being infected by Mm-laden Mϕs than the respective IL-34-Mϕ subsets. This work marks the first report describing the roles of these Mϕ subsets in mycobacterial disease and may well lead to the development of more targeted anti-Mtb approaches. 

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