Inflammasomes : des mécanismes d’activation de la caspase-1 à la progression tumorale / Inflammasomes : from caspase-1 activation mechanisms to tumor progression

Guey, Baptiste

01 July 2016

L'inflammasome est une plateforme moléculaire composée d'un récepteur de l'immunité innée tels que NLRP3 ou NLRP1b, de la protéine adaptatrice ASC et de la caspase-1. Il joue un rôle essentiel dans le déclenchement de la réponse inflammatoire via l'activation de la caspase-1 qui mène à la sécrétion de cytokines pro-inflammatoires telle que l'IL-1ß. Dans un premier axe de recherche, nous avons mis en évidence que les macrophages de souris déficientes pour ASC traités avec l'activateur de l'inflammasome NLRP1b, la toxine létale de bacillus anthracis, étaient capables de sécréter la forme mature de l'IL-1ß en absence de clivage de la caspase-1 pourtant décrit comme un événement indispensable à son activité. En reconstituant des macrophages caspase-1 KO avec une forme mutante non-clivable de la caspase-1, nous avons démontré que la forme entière de la caspase-1 est capable d'induire la sécrétion d'IL-1ß en réponse à la toxine létale alors qu'elle n'est pas fonctionnelle au sein de l'inflammasome NLRP3.Dans un second axe de recherche, mon travail de thèse s'est intéressé à comprendre le rôle de l'inflammasome au cours de la progression tumorale. En effet, l'IL-1ß est une cytokine fréquemment retrouvée dans le microenvironnement tumorale mammaire suggérant donc l'activation de l'inflammasome au sein des tumeurs. Au moyen d'un modèle de tumeurs in vivo, nous avons montré que l'absence de la caspase-1 et de ASC dans les cellules immunitaires chez la souris conduit à une réduction de la croissance tumorale. De plus, l'absence de ces deux protéines provoque également un plus fort recrutement et une meilleure activité des cellules NK au sein des tumeurs.En plus d'identifier un nouveau mécanisme d'activation de la caspase-1, mon travail de thèse a permis de mettre en évidence le rôle de l'inflammasome dans l'altération des cellules NK au cours de la progression tumorale mammaire. Ces données permettent d'envisager l'inflammasome comme une cible thérapeutique dans le cancer / The inflammasome is a molecular platform composed of an innate immune receptor such as NLRP3 or NLRP1b, of the adaptor protein ASC and of the caspase-1. It plays an essential role in triggering inflammatory response through the activation of caspase-1 that leads to the secretion of pro-inflammatory cytokines such as IL-1ß.In a first research axis, we showed that ASC deficient mice macrophages treated with an NLRP1b inflammasome activator, the lethal toxin of Bacillus anthracis, were able to secrete the mature form of IL-1ß in absence of any cleavage of caspase-1 previously described as an essential event for its function. By reconstituting caspase-1 KO macrophages with an uncleavable mutant form of caspase-1, we showed that the entire form of the protein is able to induce IL-1ß secretion upon lethal toxin treatment but is nonfunctional upon NLRP3 inflammasome activation.In a second research axis, my PhD work focused on underlying the inflammasome role during tumor progression. Indeed, IL-1ß is frequently found within breast tumor microenvironment suggesting that inflammasome is activated in tumors. Using in vivo tumor model, we showed that the absence of caspase-1 of ASC in immune cells lead to a delay tumor growth. In addition, the absence of these two proteins also causes a stronger recruitment and an enchanced activity of NK cells within mammary tumors

Inflammasomes

NLRP1b

NLRP3

Caspase-1

Cancer

Cellules NK

Tumeur mammaire

Toxine létale

Inflammasomes

NLRP1b

NLRP3

Caspase-1

Cancer

NK cells

Mammary tumor

Lethal toxin

616.99

The FIIND Domain of Nlrp1b Promotes Oligomerization and Pro-caspase-1 Activation in Response to Lethal Toxin of Bacillus anthracis

Joag, Vineet

29 November 2012

Lethal toxin (LeTx) of Bacillus anthracis kills murine macrophages in a caspase-1 and Nod-like-receptor-protein 1b (Nlrp1b)-dependent manner. Nlrp1b detects intoxication, and self-associates to form a macromolecular complex called the inflammasome, which activates the pro-caspase-1 zymogen. I heterologously reconstituted the Nlrp1b inflammasome in human fibroblasts to characterize the role of the FIIND domain of Nlrp1b in pro-caspase-1 activation. Amino-terminal truncation analysis of Nlrp1b revealed that Nlrp1b1100-1233, containing the CARD domain and amino-terminal 42 amino acids within the FIIND domain was the minimal region that self-associated and activated pro-caspase-1. Residues 1100EIKLQIK1106 within the FIIND domain were critical for self-association and pro-caspase-1 activation potential of Nlrp1b1100-1233, but not for binding to pro-caspase-1. Furthermore, residues 1100EIKLQIK1106 were critical for cell death and pro-caspase-1 activation potential of full-length Nlrp1b upon intoxication. These data suggest that after Nlrp1b senses intoxication, the FIIND domain promotes self-association of Nlrp1b, which activates pro-caspase-1 zymogen due to induced pro-caspase-1 proximity.

Nlrp1b

FIIND domain

anthrax

lethal toxin

caspase-1

inflammasome

anthracis

pyroptosis

0379

0307

0410

0487

The FIIND Domain of Nlrp1b Promotes Oligomerization and Pro-caspase-1 Activation in Response to Lethal Toxin of Bacillus anthracis

Joag, Vineet

29 November 2012

Lethal toxin (LeTx) of Bacillus anthracis kills murine macrophages in a caspase-1 and Nod-like-receptor-protein 1b (Nlrp1b)-dependent manner. Nlrp1b detects intoxication, and self-associates to form a macromolecular complex called the inflammasome, which activates the pro-caspase-1 zymogen. I heterologously reconstituted the Nlrp1b inflammasome in human fibroblasts to characterize the role of the FIIND domain of Nlrp1b in pro-caspase-1 activation. Amino-terminal truncation analysis of Nlrp1b revealed that Nlrp1b1100-1233, containing the CARD domain and amino-terminal 42 amino acids within the FIIND domain was the minimal region that self-associated and activated pro-caspase-1. Residues 1100EIKLQIK1106 within the FIIND domain were critical for self-association and pro-caspase-1 activation potential of Nlrp1b1100-1233, but not for binding to pro-caspase-1. Furthermore, residues 1100EIKLQIK1106 were critical for cell death and pro-caspase-1 activation potential of full-length Nlrp1b upon intoxication. These data suggest that after Nlrp1b senses intoxication, the FIIND domain promotes self-association of Nlrp1b, which activates pro-caspase-1 zymogen due to induced pro-caspase-1 proximity.

Nlrp1b

FIIND domain

anthrax

lethal toxin

caspase-1

inflammasome

anthracis

pyroptosis

0379

0307

0410

0487

Proteolytic Processing of Nlrp1b in the FIIND Domain is Required for Inflammasome Activity

Frew, Bradley

21 March 2012

Nlrp1b is a NOD-like receptor of the innate immune system that upon sensing of anthrax lethal toxin oliogmerizes and forms a protein scaffold that binds to and activates pro-caspase-1; this complex is called an inflammasome. Nlrp1b is highly polymorphic and different alleles display an all or none ability to sense lethal toxin. Here I show that Nlrp1b is cleaved in the FIIND domain, and that the cleaved fragments remain associated even after activation by lethal toxin. The inflammasome activity of an inactive allele was restored by three mutations, one of which also restored cleavage. A heterologous cleavage site was inserted into an uncleaved mutant of Nlrp1b; induced proteolysis of the cleavage site rescued inflammasome activity. An uncleaved mutant of Nlrp1b showed no deficiency in FIIND self-association, but did have reduced recruitment of pro-caspase-1. These data provide evidence that cleavage of Nlrp1b is required for proper recruitment and activation of caspase-1.

Microbiology

Immunology

Nlrp1b

Nalp1b

Inflammasome

Anthrax

Lethal toxin

pyroptosis

caspase-1

NLR

Nlrp1

IL-1

NOD

CARD8

Cleaved

Cleavage

Proteolysis

Innate immune

Pattern recognition receptor

Inflammation

FIIND

CARD

0410

Proteolytic Processing of Nlrp1b in the FIIND Domain is Required for Inflammasome Activity

Frew, Bradley

21 March 2012

Nlrp1b is a NOD-like receptor of the innate immune system that upon sensing of anthrax lethal toxin oliogmerizes and forms a protein scaffold that binds to and activates pro-caspase-1; this complex is called an inflammasome. Nlrp1b is highly polymorphic and different alleles display an all or none ability to sense lethal toxin. Here I show that Nlrp1b is cleaved in the FIIND domain, and that the cleaved fragments remain associated even after activation by lethal toxin. The inflammasome activity of an inactive allele was restored by three mutations, one of which also restored cleavage. A heterologous cleavage site was inserted into an uncleaved mutant of Nlrp1b; induced proteolysis of the cleavage site rescued inflammasome activity. An uncleaved mutant of Nlrp1b showed no deficiency in FIIND self-association, but did have reduced recruitment of pro-caspase-1. These data provide evidence that cleavage of Nlrp1b is required for proper recruitment and activation of caspase-1.

Microbiology

Immunology

Nlrp1b

Nalp1b

Inflammasome

Anthrax

Lethal toxin

pyroptosis

caspase-1

NLR

Nlrp1

IL-1

NOD

CARD8

Cleaved

Cleavage

Proteolysis

Innate immune

Pattern recognition receptor

Inflammation

FIIND

CARD

0410