Angela C. Collins scite author profile

Summary Ubiquitin-mediated targeting of intracellular bacteria to the autophagy pathway is a key innate defense mechanism against invading microbes, including the important human pathogen Mycobacterium tuberculosis. However, the ubiquitin ligases responsible for catalyzing ubiquitin chains that surround intracellular bacteria are poorly understood. PARKIN is a ubiquitin ligase with a well-established role in mitophagy, and mutations in the PARKIN gene (Park2) lead to increased susceptibility to Parkinson’s disease. Surprisingly, genetic polymorphisms in the Park2 regulatory region are also associated with increased susceptibility to intracellular bacterial pathogens in humans, including Mycobacterium leprae and Salmonella typhi, but the function of PARKIN in immunity remains unexplored. Here we show that PARKIN plays a role in ubiquitin-mediated autophagy of M. tuberculosis. Both PARKIN-deficient mice and flies are sensitive to various intracellular bacterial infections, suggesting PARKIN plays a conserved role in metazoan innate defense. Moreover, our work reveals an unexpected functional link between mitophagy and infectious disease.

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Cyclic GMP-AMP Synthase Is an Innate Immune DNA Sensor for Mycobacterium tuberculosis

Collins

Cai

et al. 2015

Cell Host & Microbe

331

317

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Summary Activation of the DNA-dependent cytosolic surveillance pathway in response to Mycobacterium tuberculosis infection stimulates ubiquitin-dependent autophagy and inflammatory cytokine production, and plays an important role in host defense against M. tuberculosis. However, the identity of the host sensor for M. tuberculosis DNA is unknown. Here we show that M. tuberculosis activated cyclic guanosine monophosphate–adenosine monophosphate (cGAMP) synthase (cGAS) in macrophages to produce cGAMP, a second messenger that activates the adaptor protein stimulator of interferon genes (STING) to induce type I interferons and other cytokines. cGAS localized with M. tuberculosis in mouse and human cells and in human tuberculosis lesions. Knockdown or knockout of cGAS in human or mouse macrophages blocked cytokine production and induction of autophagy. Mice deficient in cGAS were more susceptible to lethality caused by infection with M. tuberculosis. These results demonstrate that cGAS is a vital innate immune sensor of M. tuberculosis infection.

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Sensing of Mycobacterium tuberculosis and consequences to both host and bacillus

Stamm

Collins

Shiloh

2015

Immunological Reviews

108

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Summary Mycobacterium tuberculosis (Mtb), the primary causative agent of human tuberculosis, has killed more people than any other bacterial pathogen in human history and remains one of the most important transmissible diseases worldwide. Because of the longstanding interaction of Mtb with humans, it is no surprise that human mucosal and innate immune cells have evolved multiple mechanisms to detect Mtb during initial contact. To that end, the cell surface of human cells is decorated with numerous pattern recognition receptors for a variety of mycobacterial ligands. Further, once Mtb is ingested into professional phagocytes, other host molecules are engaged to report on the presence of an intracellular pathogen. In this review, we discuss the role of specific mycobacterial products in modulating the host’s ability to detect Mtb. In addition, we describe the specific host receptors that mediate the detection of mycobacterial infection and the role of individual receptors in mycobacterial pathogenesis in humans and model organisms.

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Heme Oxygenase-1 Regulates Inflammation and Mycobacterial Survival in Human Macrophages during Mycobacterium tuberculosis Infection

Scharn

Collins

Nair

et al. 2016

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Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis, is responsible for 1.5 million deaths annually. We previously showed that Mtb infection in mice induces expression of the carbon monoxide (CO) producing enzyme heme oxygenase (HO1) and that CO is sensed by Mtb to initiate a dormancy program. Further, mice deficient in HO1 succumb to Mtb infection more readily than wild type mice. While mouse macrophages control intracellular Mtb infection through several mechanisms such as nitric oxide synthase, the respiratory burst, acidification and autophagy, how human macrophages control Mtb infection remains less well understood. Here we show that Mtb induces and colocalizes with HO1 in both mouse and human tuberculosis lesions in vivo, and that Mtb induces and colocalizes with HO1 during primary human macrophage infection in vitro. Surprisingly, we find that chemical inhibition of HO1 both reduces inflammatory cytokine production by human macrophages and restricts intracellular growth of mycobacteria. Thus, induction of HO1 by Mtb infection may be a mycobacterial virulence mechanism to enhance inflammation and bacterial growth.

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Prescribing and Consumption of Opioids After Primary, Unilateral Total Hip and Knee Arthroplasty in Opioid-Naive Patients

Roberts

Moser

Collins

et al. 2020

The Journal of Arthroplasty

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Angela C. Collins

The ubiquitin ligase parkin mediates resistance to intracellular pathogens

Cyclic GMP-AMP Synthase Is an Innate Immune DNA Sensor for Mycobacterium tuberculosis

Sensing of Mycobacterium tuberculosis and consequences to both host and bacillus

Heme Oxygenase-1 Regulates Inflammation and Mycobacterial Survival in Human Macrophages during Mycobacterium tuberculosis Infection

Prescribing and Consumption of Opioids After Primary, Unilateral Total Hip and Knee Arthroplasty in Opioid-Naive Patients

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