Papel dos receptores tipo NOD na modulação da reabsorção óssea em modelo de periodontite experimental / The role of NOD-like receptors in the modulation of bone resorption in experimental periodontitis model

Talita Pereira Prates

04 July 2014

O biofilme bacteriano é o agente etiológico primário no desenvolvimento da resposta inflamatória observada na doença periodontal. Os receptores do tipo NOD (NLRs) são proteínas citosólicas que reconhecem componentes microbianos presentes no citoplasma liberados por bactérias invasoras. Sabendo que bactérias periodontopatogênicas têm a capacidade de invadir e colonizar diversas células do tecido periodontal, o presente projeto tem o objetivo de estudar a participação dos receptores do tipo NOD (NOD1 e NOD2) no reconhecimento das bactérias Porphyromonas gingivalis, na modulação da resposta imune e no processo de reabsorção óssea. Camundongos isogênicos machos da linhagem C57BL/6 (WT) e camundongos deficientes para o receptor NOD1 (NOD1-/-) e receptor NOD2 (NOD2-/-) foram infectados com Phorphyromonas gingivalis utilizando um modelo experimental de doença periodontal. O grau de reabsorção óssea foi avaliado por análise morfométrica macroscópica e histológica da maxila, além da quantificação do número de osteoclastos na crista óssea alveolar. O grau de inflamação local foi realizado por contagem do número total de bactérias orais, quantificação de neutrófilos no tecido gengival (MPO) e avaliação dos mediadores inflamatórios por ELISA. Foi também avaliada a expressão de marcadores osteogênicos e osteoclastogênicos no tecido gengival pela técnica de qPCR. Animais NOD1-/- e NOD2-/- apresentaram menor delta de reabsorção óssea quando comparados aos animais WT. Animais NOD2-/- infectados apresentaram debilitado controle bacteriano quando comparados aos animais WT infectados. Animais NOD1-/- e NOD2-/- infectados apresentaram baixa expressão de Cxcl1 e MPO quando comparados aos animais WT infectados. Além disso, foi observado que animais NOD2-/- infectados apresentaram reduzida produção de TNF-α e elevada produção de IL-10 quando comparados aos animais WT infectados. Não foi detectado diferença estatística na expressão de fatores osteogênicos, Runx2 e osteocalcina, entre animais WT, NOD1-/- e NOD2-/- infectados. Embora não houve diferença no número de células TRAP positivas presentes na crista óssea alveolar entre os grupos no tempo avaliado, animais WT infectados apresentaram elevada expressão gênica de RANKL/OPG quando comparados aos animais NOD2-/- infectados. Além disso, a expressão de marcadores de atividades dos osteoclastos, catepsina k e matrix metaloproteinase-9, foi significantemente baixa nos animais NOD1-/- e NOD2-/- infectados quando comparados aos animais WT infectados. Esses resultados permitem sugerir que independente das variáveis observadas, verificamos que a ausência dos dois receptores impede a rápida progressão da reabsorção óssea alveolar observada na periodontite, portanto os receptores NOD1 e NOD2 contribuem para progressão da reabsorção óssea no modelo experimental de periodontite. / The bacterial biofilm has been identified as an etiological agent in the pathogenesis of periodontal disease. The NOD-like receptors (NLRs) are cytoplasmic proteins that sense microbial by products released by invasive bacteria. Since periodontopathogenic bacteria are able to invade and colonize some periodontal tissue cells, the purpose of this study is to determine the role of NOD1 and NOD2 receptors in the recognition of invasive periodontopathogenic bacteria such as Porphyromonas gingivalis, modulating the immune response and bone resorption. Isogenic strain C57BL/6 males (WT), NOD1 (NOD1-/-) and NOD2 (NOD2-/-) knockout mice were infected with Porphyromonas gingivalis in an experimental model of periodontal disease. Alveolar bone resorption was evaluated by macroscopic and histological morphometric analysis, quantification of osteoclasts numbers in bone crest alveolar. Imune inflammatory response was evaluated by, bacterial load, neutrophils quantification and inflammatory mediators levels by ELISA. We also evaluated the osteogenic and osteoclastogenic markers expression in gingival tissue by Real time PCR techniques. NOD1-/- and NOD2-/- animals showed lower bone resorption when compared to WT animals. NOD2-/- infected animals expressed higher bacterial load compared to WT infected ones. NOD1-/- and NOD2-/- infected animals presented lower Cxcl1 and MPO levels compared to WT infected animals. In addition, NOD2-/- infected animals presented lower level of TNF-α and higher level of IL-10 when compared to WT infected animals. There was no significant difference in the osteogenic factors expression, Runx2 and osteocalcin, when compared NOD1-/- and NOD2-/- infected animals to WT infected ones. Although there was no difference in TRAP-positive cells number evaluated in the alveolar bone crest among the studied groups, WT infected animals showed elevated ratio RANKL/OPG when compared to NOD2-/- infected animals. Moreover, the expression of osteoclasts activity markers, cathepsin k and matrix metalloproteinase-9, was significantly lower in NOD1-/- and NOD2-/- infected animals compared to WT infected ones. These results suggest that NOD1 and NOD2 receptors contribute to progression of bone resorption in experimental model of periodontitis, since the lack of NOD like receptors impair the bone resorption.

biofilme bacteriano

catepsina K

osteoimunologia

reabsorção óssea

receptores NOD

bacterial biofilm

bone resorption

cathepsin K

NOD receptors

osteoimmunology

Papel dos receptores tipo NOD na modulação da reabsorção óssea em modelo de periodontite experimental / The role of NOD-like receptors in the modulation of bone resorption in experimental periodontitis model

Prates, Talita Pereira

04 July 2014

O biofilme bacteriano é o agente etiológico primário no desenvolvimento da resposta inflamatória observada na doença periodontal. Os receptores do tipo NOD (NLRs) são proteínas citosólicas que reconhecem componentes microbianos presentes no citoplasma liberados por bactérias invasoras. Sabendo que bactérias periodontopatogênicas têm a capacidade de invadir e colonizar diversas células do tecido periodontal, o presente projeto tem o objetivo de estudar a participação dos receptores do tipo NOD (NOD1 e NOD2) no reconhecimento das bactérias Porphyromonas gingivalis, na modulação da resposta imune e no processo de reabsorção óssea. Camundongos isogênicos machos da linhagem C57BL/6 (WT) e camundongos deficientes para o receptor NOD1 (NOD1-/-) e receptor NOD2 (NOD2-/-) foram infectados com Phorphyromonas gingivalis utilizando um modelo experimental de doença periodontal. O grau de reabsorção óssea foi avaliado por análise morfométrica macroscópica e histológica da maxila, além da quantificação do número de osteoclastos na crista óssea alveolar. O grau de inflamação local foi realizado por contagem do número total de bactérias orais, quantificação de neutrófilos no tecido gengival (MPO) e avaliação dos mediadores inflamatórios por ELISA. Foi também avaliada a expressão de marcadores osteogênicos e osteoclastogênicos no tecido gengival pela técnica de qPCR. Animais NOD1-/- e NOD2-/- apresentaram menor delta de reabsorção óssea quando comparados aos animais WT. Animais NOD2-/- infectados apresentaram debilitado controle bacteriano quando comparados aos animais WT infectados. Animais NOD1-/- e NOD2-/- infectados apresentaram baixa expressão de Cxcl1 e MPO quando comparados aos animais WT infectados. Além disso, foi observado que animais NOD2-/- infectados apresentaram reduzida produção de TNF-α e elevada produção de IL-10 quando comparados aos animais WT infectados. Não foi detectado diferença estatística na expressão de fatores osteogênicos, Runx2 e osteocalcina, entre animais WT, NOD1-/- e NOD2-/- infectados. Embora não houve diferença no número de células TRAP positivas presentes na crista óssea alveolar entre os grupos no tempo avaliado, animais WT infectados apresentaram elevada expressão gênica de RANKL/OPG quando comparados aos animais NOD2-/- infectados. Além disso, a expressão de marcadores de atividades dos osteoclastos, catepsina k e matrix metaloproteinase-9, foi significantemente baixa nos animais NOD1-/- e NOD2-/- infectados quando comparados aos animais WT infectados. Esses resultados permitem sugerir que independente das variáveis observadas, verificamos que a ausência dos dois receptores impede a rápida progressão da reabsorção óssea alveolar observada na periodontite, portanto os receptores NOD1 e NOD2 contribuem para progressão da reabsorção óssea no modelo experimental de periodontite. / The bacterial biofilm has been identified as an etiological agent in the pathogenesis of periodontal disease. The NOD-like receptors (NLRs) are cytoplasmic proteins that sense microbial by products released by invasive bacteria. Since periodontopathogenic bacteria are able to invade and colonize some periodontal tissue cells, the purpose of this study is to determine the role of NOD1 and NOD2 receptors in the recognition of invasive periodontopathogenic bacteria such as Porphyromonas gingivalis, modulating the immune response and bone resorption. Isogenic strain C57BL/6 males (WT), NOD1 (NOD1-/-) and NOD2 (NOD2-/-) knockout mice were infected with Porphyromonas gingivalis in an experimental model of periodontal disease. Alveolar bone resorption was evaluated by macroscopic and histological morphometric analysis, quantification of osteoclasts numbers in bone crest alveolar. Imune inflammatory response was evaluated by, bacterial load, neutrophils quantification and inflammatory mediators levels by ELISA. We also evaluated the osteogenic and osteoclastogenic markers expression in gingival tissue by Real time PCR techniques. NOD1-/- and NOD2-/- animals showed lower bone resorption when compared to WT animals. NOD2-/- infected animals expressed higher bacterial load compared to WT infected ones. NOD1-/- and NOD2-/- infected animals presented lower Cxcl1 and MPO levels compared to WT infected animals. In addition, NOD2-/- infected animals presented lower level of TNF-α and higher level of IL-10 when compared to WT infected animals. There was no significant difference in the osteogenic factors expression, Runx2 and osteocalcin, when compared NOD1-/- and NOD2-/- infected animals to WT infected ones. Although there was no difference in TRAP-positive cells number evaluated in the alveolar bone crest among the studied groups, WT infected animals showed elevated ratio RANKL/OPG when compared to NOD2-/- infected animals. Moreover, the expression of osteoclasts activity markers, cathepsin k and matrix metalloproteinase-9, was significantly lower in NOD1-/- and NOD2-/- infected animals compared to WT infected ones. These results suggest that NOD1 and NOD2 receptors contribute to progression of bone resorption in experimental model of periodontitis, since the lack of NOD like receptors impair the bone resorption.

bacterial biofilm

biofilme bacteriano

bone resorption

catepsina K

cathepsin K

NOD receptors

osteoimmunology

osteoimunologia

reabsorção óssea

receptores NOD

Mechanistic And Functional Insights Into Mycobacterium Bovis BCG Triggered TLR2 Signaling : Implications For Immune Evasion Strategies

Ghorpade, Devram Sampat

07 1900

Mycobacteria are multifaceted pathogens capable of causing both acute disease as well as an asymptomatic latent infection. Host immune responses during mycobacterial infection involve potent cell effector functions including that of CD4+, CD8+ and γδT cells, macrophages and dendritic cells (DCs). Further, the critical regulators of protective immunity to mycobacterial infection include IFN-γ, IL-12, IL-23, TNF-α, lymphotoxins, CD40, nitric oxide and reactive oxygen species. However, the success of mycobacterial infection often relies in its ability to evade immune surveillance mechanisms mediated by sentinels of host immunity by modulating host signal transduction pathways and expression of immunoregulatory molecules. Therefore, the key to control mycobacterial growth and limit pathogenesis lies in the understanding the interactions between Mycobacterium and primary responders like macrophages and DCs. In this scenario, the role of pattern recognition receptors (PPRs) in orchestrating host immune responses assumes central importance. The cell surface receptors play crucial role in influencing overall immune responses. Of the PRRs, the Toll-like receptors (TLRs) form key immune surveillance mechanisms in recognition as well as control of mycobacterial infection. Among them, TLR2 is the primary interacting receptor on antigen presenting cells that recognize the invading mycobacteria. Mycobacterial cell wall constituents such as LAM, LM, PIM and 19-kDa protein have been shown to activate TLR2 signaling leading to proinflammatory responses. Recent reports have suggested that PE_PGRS antigens of M. tuberculosis interact with TLR2. For example, RV0754, Rv0978c, RV1917c have been implicated in modulation of human DCs. The 19-kDa lipoprotein, LpqH (Rv3763) and LprG (Rv1411c) utilize TLR2 signaling to inhibit macrophage responsiveness to IFN-γ triggered MHC class II expression and mycobacterial antigen presentation. Interestingly, recognition and amplification of pathogenic-specific signaling events play important roles in not only discriminating the invading microbes, but also in regulating explicit immune responses. In this context, integration of key signaling centers, which modulate host immunity to pathogenic mycobacterial infections, remains unexplored. In accordance to above observations, signal transduction pathways downstream to TLRs play a critical role in modulation of battery of host cells genes in terms of expression and production of immune modulatory cytokines and chemokines, recruitment of cellular machineries to site of infections etc. This suggests the decisive role for TLRs in modulation of host cell fate decisions. However, during the ensuing immunity to invading pathogens, beside TLR signaling pathways, various other signaling molecules are thought to execute specific functions in divergent cellular contexts. Recent studies from our laboratory have clearly demarcated a novel cross talk of TLR2-NOTCH1 and TLR2-Wnt signaling pathways during mycobacterial infections. The current study primary focuses on the broad range of cross talk of TLR2 and Sonic hedgehog (SHH) signaling pathways and its functional significance. The present investigation demonstrates that M. bovis BCG, a vaccine strain, triggers a robust activation of SHH signaling in macrophages compared to infection with diverse Gram-positive or Gram-negative microbes. This observation was further evidenced by the heightened SHH signaling signatures during in vivo scenario in cells /tissues from pulmonary tuberculosis (TB) individuals as well as tuberculous meningitis (TBM) patients. Furthermore, we show that the sustained TNF-α secretion by macrophages upon infection with M. bovis BCG is a critical necessity for SHH activation. Significantly, perturbation studies implicate a vital role for M. bovis BCG stimulated TLR2/PI3K/PKC/MAPK/NF-κB axis to induce TNF-α, that contributes to enhance SHH signaling. The TNF-α driven SHH signaling downregulates M. bovis BCG induced TLR2 signaling events leading to modulation of battery of genes that regulate various functions of macrophages genes like Vegf-a, Socs-3, Cox-2, Mmp-9 and M1/M2 genes. Importantly, utilizing whole-genome microRNA (miRNA) profiling, roles for specific miRNAs were identified as the molecular regulators that bring about the negative-feedback loop comprising TLR2-SHH signaling events. Thus, the current study illustrates how SHH signaling tightly regulates the kinetics and strengths of M. bovis BCG specific TLR2 responses, emphasizing a novel role for SHH signaling in host immune responses to mycobacterial infections. As described, variety of host factors contributes for ensuing effective host defenses and modulation of host cell fate decisions. Interestingly, avirulent pathogenic mycobacteria, including the vaccine strain M. bovis BCG, unlike virulent M. tuberculosis, cause extensive apoptosis of infected macrophages, which suggests a significant contribution of the apoptosis process to the initiation and subsequent amplification of innate as well as adaptive immune responses. Among various cues that could lead to apoptosis of host cells, the initiation of the apoptotic machinery by posttranscriptional mechanisms assumes significant importance. Among posttranscriptional control mechanisms, miRNAs are suggested to regulate several biological processes including immune responses. Various effectors of host immunity are known to be regulated by several miRNAs, and a prominent one among them, miRNA-155 (miR-155), often exhibits crucial roles during innate or adaptive immune responses. In this perspective, we identified a novel role of miR-155 during M. bovis BCG induced apoptosis of macrophages. The genetic and signaling perturbations data suggested that miR-155 regulates PKA signaling by directly targeting a negative regulator of PKA, protein kinase inhibitor alpha (PKI-α). Enhanced activation of PKA signaling resulted in induced expression of the apoptotic genes as well as Caspase-3 cleavage and Cytochrome c translocation. Thus, augmented PKA signaling by M. bovis BCG-driven miR-155 dictates cell fate decisions of infected macrophages, emphasizing a novel role for miR-155 in host immunity to mycobacterial infections. In perspective of these studies, important directives are often comprised of sequential and coordinated activation of TLR and NLR-driven signal transduction pathways, thus exhibiting foremost influence in determining the overall strength of the innate immune responses. As described, TLR2 exhibits dominant role in sensing various agonists including pathogen-associated molecular patterns (PAMPs) of microbes at the cell surface and generally considered as major effectuator of proinflammatory responses. Interestingly, NLRs like NOD1 or NOD2 often act in contrary, thus regulating anti-inflammatory responses as well as polarization of T cells towards skewed Th2 phenotype. This presents an interesting conundrum to functionality of DCs or macrophages in terms of effector functions during rapidly evolving immunological processes including effects originating from immunosuppressive effectors such as CTLA-4 or TGF-. DCs like macrophages are important sentinels of innate immunity, possesses array of PRRs that include TLRs and NOD-like receptors (NLRs). Signaling events associated with innate sensors like TLRs and NLRs often act as regulatory circuits that modulate the overall functions of DCs in terms of maturation process, cytokine or chemokine production, receptor expression, migration to secondary lymphoid organs for antigen presentation for effectuating Th polarization. TLR2, while acting as sensors for extracellular cues or endocytic network, drives signaling events in response to recognition of PAMPs including mycobacterial antigens like ESAT-6, PE_PGRS antigens, while NOD1 and NOD2 operate as cytosolic sensors initiating signaling pathways upon recognition of diaminopimelic acid (DAP) and muramyl dipeptide (MDP), components of bacterial peptidoglycan. Thus, TLRs or NOD receptors could trigger similar or contrasting immune responses by cooperative or non-cooperative sensing, consequently exhibiting immense complexity during combinatorial triggering of host DCs-PRR repertoire. In view of these observations, our current investigation comprehensively demonstrated that maturation process of human DCs were cooperatively regulated by signaling cascades initiated by engagements of TLR2, NOD1 and NOD2 receptors. Importantly, combined triggering of TLR2 and NOD receptors abolished the TGF-β or CTLA-4-mediated impairment of human DCs maturation, which required critical participation of NOTCH1-PI3K signaling cohorts. Thus, our data delineated the novel insights in modulation of macrophages and DCs effector functions by mycobacterial TLR2 or NOD agonists and broaden our understanding on the signal dynamics and integration of multiple signals from PRRs during mycobacterial infections. Altogether, our findings establish the understanding of conceptual frame work in fine tuning of TLR2 responses by SHH signaling as well as potential co-operativity among TLRs and NODs to modulate NOTCH1 dependent DCs maturation. Importantly, our study provides mechanistic and functional insights into various molecular regulators of macrophage cell fate decisions like miR-31. miR-150 and miR-155, which can fuel the search for attractive and effective drug targets and novel therapeutics to combat diseases of the hour like tuberculosis.

Mycobacterial Infections

Mycobacterium Bovis BCG Infections

Toll-Like Receptors (TLR2)

Pathogenic Mycobacterial Infections

Pathogenic Mycobacteria - Host Immunity

Mycobacterial Pathogenesis

TLR2 Signaling

Mycobacterium Bovis BCG TLR2 Signaling

Pattern Recognition Receptors

Sonic Hedgehog (SHH) Signaling

M. bovis BCG

MicroRNA-155

TLR2 Receptors

Bacteriology