Section of Geriodontics, Department of Conservative Dentistry and Periodontics, University Hospital Jena, Jena, Germany.
Department of Orthodontics, University Hospital Jena, Jena, Germany.
Front Immunol. 2023 Sep 6;14:1213026. doi: 10.3389/fimmu.2023.1213026. eCollection 2023.
Novel preventive strategies in periodontal disease target the bacterial-induced inflammatory host response to reduce associated tissue destruction. Strategies focus on the modulation of tissue-destroying inflammatory host response, particularly the reduction of inflammation and promotion of resolution. Thereby, nutrition is a potent immunometabolic non-pharmacological intervention. Human studies have demonstrated the benefit of olive oil-containing Mediterranean-style diets (MDs), the main component of which being mono-unsaturated fatty acid (FA) oleic acid (OA (C18:1)). Hence, nutritional OA strengthened the microarchitecture of alveolar trabecular bone and increased circulating pro-resolving lipid mediators following bacterial inoculation with periodontal pathogen , contrary to saturated FA palmitic acid (PA (C16:0)), which is abundant in Western-style diets. Additionally, the generalized distribution of inflammatory pathway mediators can occur in response to bacterial infection and compromise systemic tissue metabolism and bone homeostasis distant from the side of infection. Whether specific FA-enriched nutrition and periodontal inoculation are factors in systemic pathology that can be immune-modulatory targeted through dietary substitution is unknown and of clinical relevance.
Normal-weight C57BL/6-mice received OA-or PA-enriched diets (PA-ED, OA-ED, PA/OA-ED) or a normal-standard diet (n=12/group) for 16 weeks and were orally infected with /placebo to induce periodontal disease. Using histomorphometry and LC-MS/MS, systemic bone morphology, incorporated immunometabolic FA-species, serological markers of bone metabolism, and stress response were determined in addition to bone cell inflammation and interaction .
In contrast to OA-ED, PA-ED reduced systemic bone microarchitecture paralleled by increased lipotoxic PA-containing metabolite accumulation in bone. Substitution with OA reversed the bone-destructive impact of PA, which was accompanied by reduced diacylglycerols (DAG) and saturated ceramide levels. Further, PA-associated reduction in mineralization activity and concomitant pro-inflammatory activation of primary osteoblasts were diminished in cultures where PA was replaced with OA, which impacted cellular interaction with osteoclasts. Additionally, PA-ED increased osteoclast numbers in femurs in response to oral infection, whereas OA-ED reduced osteoclast occurrence, which was paralleled by serologically increased levels of the stress-reducing lipokine PI(18:1/18:1).
OA substitution reverses the bone-destructive and pro-inflammatory effects of PA and eliminates incorporated lipotoxic PA metabolites. This supports Mediterranean-style OA-based diets as a preventive intervention to target the accumulation of PA-associated lipotoxic metabolites and thereby supports systemic bone tissue resilience after oral bacterial infection.
牙周病的新型预防策略针对细菌引起的炎症反应,以减轻相关的组织破坏。这些策略侧重于调节组织破坏性炎症反应,特别是减少炎症和促进组织愈合。因此,营养是一种有效的免疫代谢非药物干预手段。人体研究表明,富含橄榄油的地中海式饮食(MD)有益,其主要成分是单不饱和脂肪酸(FA)油酸(OA(C18:1))。因此,营养 OA 加强了肺泡小梁骨的微观结构,并在接种牙周病病原体后增加了循环的促愈合脂质介质,而饱和 FA 棕榈酸(PA(C16:0))则相反,后者在西方饮食中含量丰富。此外,炎症途径介质的普遍分布可能是对细菌感染的反应,并损害远离感染侧的全身组织代谢和骨骼内稳态。特定富含 FA 的营养和牙周接种是否是全身病理学的因素,是否可以通过饮食替代进行免疫调节靶向尚不清楚,但具有临床相关性。
正常体重 C57BL/6 小鼠接受 OA 或 PA 丰富饮食(PA-ED、OA-ED、PA/OA-ED)或正常标准饮食(n=12/组)16 周,并口服感染/安慰剂以诱导牙周病。使用组织形态计量学和 LC-MS/MS 确定全身骨形态、免疫代谢 FA 物种、骨代谢的血清标志物和应激反应,以及骨细胞炎症和相互作用。
与 OA-ED 相比,PA-ED 降低了全身骨微结构,同时骨中脂毒性 PA 含量增加。用 OA 替代可逆转 PA 的骨破坏性影响,同时降低二酰甘油(DAG)和饱和神经酰胺水平。此外,PA 相关的矿化活性降低和伴随的原代成骨细胞的促炎激活在 PA 被 OA 替代的培养物中减少,这影响了细胞与破骨细胞的相互作用。此外,PA-ED 增加了口腔感染后股骨中的破骨细胞数量,而 OA-ED 减少了破骨细胞的发生,同时血清中应激减轻的脂联素 PI(18:1/18:1)水平增加。
OA 替代可逆转 PA 的骨破坏性和促炎作用,并消除了掺入的脂毒性 PA 代谢物。这支持基于地中海式 OA 的饮食作为预防干预措施,以靶向 PA 相关脂毒性代谢物的积累,从而支持口腔细菌感染后全身骨组织的弹性。
