Mast cells contribute to alveolar bone loss in Spontaneously Hypertensive Rats with periodontal disease regulating cytokines production.

Mast cells (MCs) play a pivotal role in inflammatory responses and had been studied in inflammatory bone disorders, however, their role in alveolar bone loss induced by periodontal disease (PD) is not yet fully understood. We, therefore, aimed to evaluate the effects of MCs depletion in the PD-induced alveolar bone loss in Wistar (W) and Spontaneously Hypertensive Rats (SHRs). PD was induced by ligating the lower first molars with silk thread one day after the MCs depletion, by the pre-treatment with compound 48/80 for 4 days. After 15 days of PD induction, the hemi-mandibles were surgically collected for qRT-PCR, histological analyses, immunostaining, and ELISA. Systolic blood pressure (SBP) was verified by tail plethysmography to confirm the hypertensive status, and SHR presented SBP >150 mmHg, and previous MC depletion alone or associated with PD did not alter this parameter. SHRs showed a more severe alveolar bone loss compared to W, and MC depletion significantly inhibited this response in both strains, with a more significant response in SHRs. MCs were less abundant in 48/80+PD groups, thus validating the previous MCs depletion in our model. PD increased the number of MC in the gingival tissue of SHR. Cytokine production (TNF-α, IL-6, IL-1ß, and CXCL3) was constitutively higher in SHR and increased further after PD, which was also significantly reduced in the MCs-depleted animals. PD led to an increased expression of Opn, Rankl, Rank, Vtn, Itga5, Itgb5, Trap, and Ctsk in the mandible of W and SHRs, which was reversed in MCs-depleted animals. These results suggest that MCs significantly contributes to the PD-induced alveolar bone resorption, especially in the SHR, which is associated with a more severe PD progression compared to Wistar, partly explained by these cells contribution to the inflammatory status and mediator production, stimulating osteoclast-related response markers, which were reduced after MC depletion in our experimental model.

Telmisartan Prevents Alveolar Bone Loss by Decreasing the Expression of Osteoclasts Markers in Hypertensive Rats With Periodontal Disease.

Periodontal disease (PD) is a prevalent inflammatory disease with the most severe consequence being the loss of the alveolar bone and teeth. We therefore aimed to evaluate the effects of telmisartan (TELM), an angiotensin II type 1 receptor (Agtr1) antagonist, on the PD-induced alveolar bone loss, in Wistar (W) and Spontaneous Hypertensive Rats (SHRs). PD was induced by ligating the lower first molars with silk, and 10 mg/kg TELM was concomitantly administered for 15 days. The hemimandibles were subjected to microtomography, ELISA was used for detecting tumor necrosis factor (TNF-α), interleukin-1ß (IL-1ß), interleukin-6 (IL-6), CXCL3, and CCL2, while qRT-PCR was used for analyzing expression of components of renin-angiotensin system (RAS) (Agt, Ace, Agt1r, Agt2r, Ace2, and Masr), and bone markers (Runx2, Osx, Catnb, Alp, Col1a1, Opn, Ocn, Bsp, Bmp2, Trap, Rank, Rankl, CtsK, Mmp-2, Mmp-9, and osteoclast-associated receptor (Oscar)). The SHR + PD group showed greater alveolar bone loss than the W + PD group, what was significantly inhibited by treatment with TELM, especially in the SHR group. Additionally, TELM reduced the production of TNF-α, IL-1ß, and CXCL3 in the SHR group. The expression of Agt increased in the groups with PD, while Agtr2 reduced, and TELM reduced the expression of Agtr1 and increased the expression of Agtr2, in W and SHRs. PD did not induce major changes in the expression of bone formation markers, except for the expression of Alp, which decreased in the PD groups. The bone resorption markers expression, Mmp9, Ctsk, and Vtn, was higher in the SHR + PD group, compared to the respective control and W + PD group. However, TELM attenuated these changes and increased the expression of Runx2 and Alp. Our study suggested that TELM has a protective effect on the progression of PD, especially in hypertensive animals, as evaluated by the resorption of the lower alveolar bone. This can be partly explained by the modulation in the expression of Angiotensin II receptors (AT1R and AT2R), reduced production of inflammatory mediators, the reduced expression of resorption markers, and the increased expression of the bone formation markers.

Antimicrobial, antibiofilm and cytotoxic effects of a colloidal nanocarrier composed by chitosan-coated iron oxide nanoparticles loaded with chlorhexidine.

OBJECTIVES: This study evaluated the antimicrobial and antibiofilm effects of a colloidal nanocarrier for chlorhexidine (CHX) on Candida glabrata and Enterococcus faecalis, as well as tested its cytotoxic effect on murine fibroblasts. METHODS: Iron oxide nanoparticles (IONPs) were coated with chitosan (CS) and loaded with CHX at 31.2, 78 and 156 µg/mL. Antimicrobial effects were assessed by determining the minimum inhibitory concentration (MIC), using the broth microdilution method, and fractional inhibitory concentration index (FICI). Preformed biofilms (48 h) were treated with different concentrations of the nanocarrier (24 h) and quantified by colony-forming units (CFUs), total biomass and metabolic activity. For cytotoxicity, the viability of L929 cells was evaluated by MTT assay after 24 and 48 h of exposure to the nanocarrier. Data were submitted to ANOVA and Fisher LSD or Tukey post-hoc tests (α = 0.05). RESULTS: MIC and FICI results showed an indifferent interaction among the components of the nanocarrier for all strains evaluated. CHX alone and nanocarrier containing 156 µg/mL CHX did not differ from each other in reducing the number of CFUs. However, the nanocarrier containing 156 µg/mL CHX promoted the highest reductions in total biofilm biomass and metabolism, surpassing the effect of CHX alone. After 24 and 48 h of exposure, the nanocarrier reduced CHX toxicity to the L929 cell at low concentrations. CONCLUSION: These findings suggest that the CHX nanocarrier has potential to be used in the control of oral diseases associated with C. glabrata and E. faecalis. CLINICAL RELEVANCE: CHX has improved the antibiofilm effect and reduced the cytotoxicity (at low concentrations) when conjugated to CS-coated IONPs. This new colloidal formulation has potential as an alternative antimicrobial agent to pure CHX for the control of biofilm-related oral diseases, such as oral candidiasis and endodontic infections.

Aliskiren Attenuates the Inflammatory Response and Wound Healing Process in Diabetic Mice With Periodontal Disease.

The aim of this study was to characterize the role of local RAS (renin-angiotensin system) in the inflammatory response of normal (N) and diabetic (D) mice with periodontal disease (PD). Diabetes Mellitus (DM) was induced by peritoneal injection of streptozotocin in Balb/c mice. PD was induced by ligature around the first molar in both N and D, irrespective of whether they were treated with aliskiren (50 mg/kg, Alisk). Mandibles were harvested for histomorphometric analyses, and gingival tissue (GT) was collected to evaluate gene expression and extracellular matrix components (ECM). Immunohistochemical (IHC) analyses were used to localize RAS in GT. The production of C-reactive protein (CRP), IL-1ß, CXCL2, and CCL8 was evaluated by enzyme-linked immunosorbent assay (ELISA). Renin was found to exacerbate the inflammation and periodontal bone loss at 14 days after PD, and Alisk inhibited this process in GT of N and D. PD increased CRP, CXCL2, CCL8, and IL-1ß production in both animals. Alisk could inhibit CRP, CXCL2, and CCL8 primarily in D animals. However, only CCL8 was decreased in N animals after Alisk pretreatment. PD enhanced expression and production of AGT, ACE, AT1R, and AT2R in both N and D. AT1R expression was higher in D with PD, and AT2R expression was higher in N with PD. ACE2 and receptor Mas (MasR) expression and production was elevated in the control group of both animals. PD inhibited ACE2 in N but not in D. MasR expression was unaffected in both N and D with PD. Alisk reduced expression and production of all RAS components in GT of both animals, except for ACE2 in N. RAS staining was observed in all layers of epithelium, basal cell layer, and lamina propria and was higher in N with PD. Col1a1, Col1a2, Col3a1, and fibronectin (Fn1) were increased in both animals with PD. Alisk inhibited Col1a1 and Fn in both animals, Col1a2 was decreased only in D, while levels of Col3a1 remained unchanged in all animal groups. In conclusion, these data demonstrated the presence and functional role of local RAS in GT, exacerbating the inflammatory response, periodontal bone loss, and wound healing processes in both N and D animal groups. In addition, Alisk was able to significantly reduce gingival inflammation, excessive wound healing processes, and periodontal bone loss.

NOD1 in the modulation of host-microbe interactions and inflammatory bone resorption in the periodontal disease model.

Periodontitis is a chronic inflammatory condition characterized by destruction of non-mineralized and mineralized connective tissues. It is initiated and maintained by a dysbiosis of the bacterial biofilm adjacent to teeth with increased prevalence of Gram-negative microorganisms. Nucleotide-binding oligomerization domain containing 1 (NOD1) is a member of the Nod-like receptors (NLRs) family of proteins that participate in the activation of the innate immune system, in response to invading bacteria or to bacterial antigens present in the cytoplasm. The specific activating ligand for NOD1 is a bacterial peptidoglycan derived primarily from Gram-negative bacteria. This study assessed the role of NOD1 in inflammation-mediated tissue destruction in the context of host-microbe interactions. We used mice with whole-genome deletion of the NOD1 gene in a microbe-induced periodontitis model using direct injections of heat-killed Gram-negative or Gram-negative/Gram-positive bacteria on the gingival tissues. In vitro experiments using primary bone-marrow-derived macrophages from wild-type and NOD1 knockout mice provide insight into the role of NOD1 on the macrophage response to Gram-negative and Gram-negative/Gram-positive bacteria. Microcomputed tomography analysis indicated that deletion of NOD1 significantly aggravated bone resorption induced by Gram-negative bacteria, accompanied by an increase in the numbers of osteoclasts. This effect was significantly attenuated by the association with Gram-positive bacteria. In vitro, quantitative PCR arrays indicated that stimulation of macrophages with heat-killed Gram-negative bacteria induced the same biological processes in wild-type and NOD1-deficient cells; however, expression of pro-inflammatory mediators was increased in NOD1-deficient cells. These results suggest a bone-sparing role for NOD1 in this model.

Modulation of cell proliferation, survival and gene expression by RAGE and TLR signaling in cells of the innate and adaptive immune response: role of p38 MAPK and NF-KB.

OBJECTIVE: The aim of this study was to evaluate a possible synergism between AGE-RAGE and TLR4 signaling and the role of p38 MAPK and NF-kB signaling pathways on the modulation of the expression of inflammatory cytokines and proliferation of cells from the innate and adaptive immune response. MATERIAL AND METHODS: T lymphocyte (JM) and monocyte (U937) cell lines were stimulated with LPS and AGE-BSA independently and associated, both in the presence and absence of p38 MAPK and NF-kB inhibitors. Proliferation was assessed by direct counting and viability was assessed by a biochemical assay of mitochondrial function. Cytokine gene expression for RAGe, CCL3, CCR5, IL-6 and TNF-α was studied by RT-PCR and RT-qPCR. RESULTS: RAGE mRNA expression was detected in both cell lines. LPS and AGE-BSA did not influence cell proliferation and viability of either cell line up to 72 hours. LPS and LPS associated with AGE induced expression of IL-6 and TNF-α in monocytes and T cells, respectively. CONCLUSIONS: There is no synergistic effect between RAGE and TLR signaling on the expression of IL-6, TNF-α , RAGE, CCR5 and CCL3 by monocytes and lymphocytes. Activation of RAGE associated or not with TLR signaling also had no effect on cell proliferation and survival of these cell types.

Modulation of cell proliferation, survival and gene expression by RAGE and TLR signaling in cells of the innate and adaptive immune response: role of p38 MAPK and NF-KB

Objective: The aim of this study was to evaluate a possible synergism between AGE-RAGE and TLR4 signaling and the role of p38 MAPK and NF-kB signaling pathways on the modulation of the expression of inflammatory cytokines and proliferation of cells from the innate and adaptive immune response. Material and Methods: T lymphocyte (JM) and monocyte (U937) cell lines were stimulated with LPS and AGE-BSA independently and associated, both in the presence and absence of p38 MAPK and NF-kB inhibitors. Proliferation was assessed by direct counting and viability was assessed by a biochemical assay of mitochondrial function. Cytokine gene expression for RAGe, CCL3, CCR5, IL-6 and TNF-α was studied by RT-PCR and RT-qPCR. Results: RAGE mRNA expression was detected in both cell lines. LPS and AGE-BSA did not influence cell proliferation and viability of either cell line up to 72 hours. LPS and LPS associated with AGE induced expression of IL-6 and TNF-α in monocytes and T cells, respectively. Conclusions: There is no synergistic effect between RAGE and TLR signaling on the expression of IL-6, TNF-α , RAGE, CCR5 and CCL3 by monocytes and lymphocytes. Activation of RAGE associated or not with TLR signaling also had no effect on cell proliferation and survival of these cell types. .

Papel de RAGE e TLR4 na modulação da resposta imune inflamatória em PBMC de pacientes diabéticos e não diabéticos: (estudo in vitro) / Role of RAGE and TLR4 in modulation of inflammatory immune response in PBMC of diabetic and non-diabetic individuals. (In vitro study)

Diabetes mellitus se caracteriza pelo acúmulo de produtos finais da glicação avançada (AGEs) que ativam seu receptor RAGE. Entre as complicações associadas ao diabetes está a modulação da resposta imune, evidenciada pela maior susceptibilidade à infecção em diabéticos. O sistema imune percebe e reaje aos microrganismos por meio de receptores de padrões moleculares (receptores semelhantes à Toll, TLRs). Lipopolissacarídeo da parede celular (LPS) é um dos principais fatores de virulência de microrganismos Gramnegativos e é reconhecido principalmente por TLR4. A hipótese deste trabalho é que a ativação de RAGE e TLR4 por seus ligantes pode resultar em efeito sinérgico na modulação da proliferação, morte celular e expressão de citocinas inflamatórias por células mononucleares do sangue periférico (PBMC). Foram selecionados 7 indivíduos não diabéticos e 6 indivíduos portadores de diabetes tipo 2 para coleta de PBMCs. Estas células foram estimuladas com LPS bacteriano e BSA glicado, isoladamente e combinados, na presença e na ausência de inibidores dos receptores RAGE e TLR4. Proliferação e morte celular foram avaliadas por contagem direta em hemocitômetro e citometria de fluxo, respectivamente. A expressão de citocinas e quimiocinas inflamatórias foi avaliada por RT-qPCR, enquanto a modulação do padrão de resposta imune adaptativa foi estudada por meio de citometria de fluxo. Os resultados mostram que PBMCs de pacientes portadores de diabetes tendem a ser mais resistentes à indução de morte celular. De um modo geral, a inibição dos receptores RAGE e TLR4 não interfere na atividade metabólica e viabilidade celular em diabéticos e não diabéticos. A expressão gênica de CCL3 e CCR5 não foi regulada pelos receptores RAGE e TLR, sendo discretamente mais elevada em pacientes não diabéticos. A expressão de TNF-I e IL-10 foi regulada por TLR, enquanto a expressão de RAGE foi regulada de forma autócrina pela ativação do próprio RAGE. Observamos uma tendência para maior quantidade de linfócitos T auxiliares em pacientes portadores de diabetes, com desvio para um padrão de resposta Th1. Em geral, PBMCs de diabéticos parecem ser mais resistentes á morte celular e mais responsivas aos estímulos avaliados. Concluímos que não houve sinergismo entre RAGE e TLR na modulação da resposta de PBMC de indivíduos diabéticos e não diabéticos

Diabetes mellitus is characterized by the progressive accumulation of advanced glycation end-products (AGEs), which bind and activate their membrane-bound receptor (RAGE) on a variety of target cells. Modulation of the immune response is one of the diabetes-associated complications and is reflected on the increased susceptibility of diabetes patients to infections and sepsis. The immune system senses and reacts to microorganisms by pattern-recognition receptors, such as Toll-like receptors (TLRs). Bacterial lipopolysaccharide (LPS) is a major virulence factor of Gram-negative microorganisms, which is recognized mainly by TLR4. The hypothesis of this study is that of a synergism between activated TLR4 and RAGE that modulates the response of cells of innate and adaptive immunity in the circulation (peripheral blood monocytic cells, PBMCs). PBMCs were collected from 13 volunteers (7 with type 2 diabetes and 6 systemically-healthy controls). The cells were stimulated with bacterial LPS and glycated bovine serum albumin (AGE-BSA), both independently and in association. To study the role of TLR4 and RAGE signaling, these stimulations were performed in the presence and absence of specific inhibitors of RAGE and TLR4. We used direct counting in a hemocytometer and flow cytometry, respectively, to assess cell proliferation and death. The expression of selected cytokines and receptors was studied by RTqPCR, whereas the effect of these stimuli on the modulation of T helper-type response was determined by flow cytometry. We observed increased cell survival in PBMCs from diabetic patients. Inhibition of RAGE and TLR4 had no marked effect on cell proliferation, metabolic activity and survival. Gene expression of CCL3 (MIP-1alpha) and CCR5 was discretely higher in PBMCs from non-diabetic patients and was not affected by RAGE or TLR4 signaling. Expression of TNF-α and IL-10 was regulated by TLR, whereas RAGE gene expression was regulated in autocrine fashion by activation of the RAGE receptor. A greater proportion of CD4+ lymphocytes was observed in diabetic patients, which also showed a trend toward a shift to Th1-response. Overall, PBMC from diabetes patients were more resistant to apoptosis and less responsive to the TLR4 and RAGE ligands used. We conclude that there is no synergism between TLR4 and RAGE on the modulation of PBMC cell proliferation, apoptosis and gene expression

O efeito da descontaminação oral na redução dos índices de infecções pulmonares nosocomiais: revisão de literatura / The effect of oral decontamination on reducing the rates of nosocomial pulmonary infections: a review

A possibilidade de patógenos respiratórios colonizarem o biofilme dentário e dessa forma servir como reservatório para infecções pulmonares é o embasamento teórico para se executar a descontaminação oral com a finalidade de se prevenir a ocorrência dessas doenças. O objetivo da presente revisão de literatura foi avaliar o efeito da descontaminação oral com métodos químicos auxiliares na diminuição das taxas de infecções pulmonares nosocomiais. Os estudos avaliados foram realizados em instituições como casas de repouso e unidades de terapia intensiva em hospitais, pois, esses pacientes, representam um grupo que apresentam higiene oral de baixa qualidade em relação a indivíduos não-instituicionalizados, e, adicionalmente, esses indivíduos são altamente susceptíveis a pneumonia nosocomial. A intervenção avaliada foi o efeito da utilização de antissépticos ou antibióticos como método auxiliar ao controle mecânico de biofilme bacteriano. Alguns indícios demonstram uma tendência positiva da clorexidina e do iodo-povidine na redução da pneumonia nosocomial. Porém, mais estudos controlados, cegos e randomizados serão necessários para afirmar os efeitos benéficos da descontaminação oral na prevenção da pneumonia nosocomial bem como para se criar novos protocolos para essa finalidade

The possibility of respiratory pathogens colonize the dental biofilm and thus serve as a reservoir for pulmonary infections is the theoretical basis to perform oral decontamination with the purpose to prevent the occurrence of these diseases. The aim of this review is to evaluate the effect of oral decontamination with mouth washes or topic antibiotics on reduce the rates of nosocomial pulmonary infections. The Studies have been conducted in institutions like nursing homes and intensive care units in hospitals, because these patients represent agroup which presents low quality of oral hygiene in relation to non-institucionalized patients, and additionally, these individuals are highly susceptible to nosocomial pneumonia. The intervention assessed was the effects of antiseptics or antibiotics as an auxiliary method to mechanical control of oral biofilms. Some indicators demonstrated a positive trend of chlorhexidine and povidone-iodine in reducing nosocomial pneumonia. However, more blinded, randomized, controlled studies will be required to affirm the benefits of oral decontamination for the prevention of nosocomial pneumonia and to create new protocols for this purpose