Early apoptosis of macrophages modulated by injection of Yersinia pestis YopK promotes progression of primary pneumonic plague

Autor: Miqdad O. Dhariwala, Deborah M. Anderson, Jennifer M. Hughes Hanks, Charles R. Brown, Kristen N. Peters
Jazyk: angličtina
Rok vydání: 2013
Předmět:
Male
Yersinia pestis
Apoptosis
Type three secretion system
Mice
Gram Negative
Biology (General)
Promoter Regions
Genetic
Bacterial Secretion Systems
Caspase 8
Mice
Inbred BALB C
0303 health sciences
biology
Caspase 3
Effector
Pyroptosis
Innate Immunity
Bacterial Pathogens
3. Good health
Host-Pathogen Interaction
Female
medicine.symptom
Research Article
Pneumonic plague
QH301-705.5
Immunology
Inflammation
Microbiology
03 medical and health sciences
Immune system
Bacterial Proteins
Virology
Genetics
medicine
Animals
Biology
Microbial Pathogens
Molecular Biology
030304 developmental biology
Plague
030306 microbiology
Macrophages
Immunity
Immune Defense
Dendritic Cells
RC581-607
biology.organism_classification
medicine.disease
Enzyme Activation
Mice
Inbred C57BL
Emerging Infectious Diseases
Parasitology
Immunologic diseases. Allergy
Apoptosis Regulatory Proteins
Zdroj: PLoS Pathogens, Vol 9, Iss 4, p e1003324 (2013)
PLoS Pathogens
ISSN: 1553-7374
1553-7366
Popis: Yersinia pestis causes pneumonic plague, a disease characterized by inflammation, necrosis and rapid bacterial growth which together cause acute lung congestion and lethality. The bacterial type III secretion system (T3SS) injects 7 effector proteins into host cells and their combined activities are necessary to establish infection. Y. pestis infection of the lungs proceeds as a biphasic inflammatory response believed to be regulated through the control of apoptosis and pyroptosis by a single, well-conserved T3SS effector protein YopJ. Recently, YopJ-mediated pyroptosis, which proceeds via the NLRP3-inflammasome, was shown to be regulated by a second T3SS effector protein YopK in the related strain Y. pseudotuberculosis. In this work, we show that for Y. pestis, YopK appears to regulate YopJ-mediated apoptosis, rather than pyroptosis, of macrophages. Inhibition of caspase-8 blocked YopK-dependent apoptosis, suggesting the involvement of the extrinsic pathway, and appeared cell-type specific. However, in contrast to yopJ, deletion of yopK caused a large decrease in virulence in a mouse pneumonic plague model. YopK-dependent modulation of macrophage apoptosis was observed at 6 and 24 hours post-infection (HPI). When YopK was absent, decreased populations of macrophages and dendritic cells were seen in the lungs at 24 HPI and correlated with resolution rather than progression of inflammation. Together the data suggest that Y. pestis YopK may coordinate the inflammatory response during pneumonic plague through the regulation of apoptosis of immune cells.
Author Summary In this work, we studied the mechanism whereby bacteria manipulate innate immune responses by controlling host cell death. Yersinia pestis, the causative agent of plague, requires effector Yops of the Type III Secretion System (T3SS) to evade the innate immune system during infection. We show that Yersinia induces apoptosis of macrophages through two distinct mechanisms, each through the activity of the well-characterized T3SS effector YopJ, yet regulated in an opposing manner through the activity of a second effector protein YopK. In a murine pneumonic plague model, we found evidence that YopK regulates apoptosis of macrophages during the early stage of infection, leading to uncontrolled inflammation and disease. In contrast, the absence of YopK-regulated apoptosis allowed recruitment of lymphocytes and CCR2+ immune cells which led to bacterial clearance and resolution of inflammation. Together the data suggest that Yersinia YopK modulates apoptosis of immune cells to control the inflammatory response during plague.
Databáze: OpenAIRE
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