发育、成熟和衰老大鼠牙齿中的成牙本质细胞具有多种表型，可变表达所有 9 种电压门控钠通道。

Odontoblasts in developing, mature and ageing rat teeth have multiple phenotypes that variably express all nine voltage-gated sodium channels.

机构信息

Department of Anesthesiology & Pain Medicine, University of Washington, Seattle, WA 98195, United States.

出版信息

Arch Oral Biol. 2011 Nov;56(11):1199-220. doi: 10.1016/j.archoralbio.2011.04.014.

DOI:10.1016/j.archoralbio.2011.04.014

PMID:21640979

Abstract

OBJECTIVE

Our goal was to evaluate the expression patterns for voltage gated sodium channels in odontoblasts of developing and mature rat teeth.

DESIGN

We analysed immunoreactivity (IR) of the alpha subunit for all nine voltage gated sodium channels (Nav1.1-1.9) in teeth of immature (4 weeks), young adult (7 weeks), fully mature adult (3 months), and old rats (6-12 months). We were interested in developmental changes, crown/root differences, tetrodotoxin sensitivity or resistance, co-localization with nerve regions, occurrence in periodontium, and coincidence with other expression patterns by odontoblasts such as for transient receptor potential A1 (TRPA1).

RESULTS

We found that Nav1.1-1.9-IR each had unique odontoblast patterns in mature molars that all differed from developmental stages and from incisors. Nav1.4- and Nav1.7-IR were intense in immature odontoblasts, becoming limited to specific zones in adults. Crown odontoblasts lost Nav1.7-IR and gained Nav1.8-IR where dentine became innervated. Odontoblast staining for Nav1.1- and Nav1.5-IR increased in crown with age but decreased in roots. Nav1.9-IR was especially intense in regularly scattered odontoblasts. Two tetrodotoxin-resistant isoforms (Nav1.5, Nav1.8) had strong expression in odontoblasts near dentinal innervation zones. Nav1.6-IR was concentrated at intercusp and cervical odontoblasts in adults as was TRPA1-IR. Nav1.3-IR gradually became intense in all odontoblasts during development except where dentinal innervation was dense.

CONCLUSIONS

All nine voltage-gated sodium channels could be expressed by odontoblasts, depending on intradental location and tooth maturity. Our data reveal much greater complexity and niche-specific specialization for odontoblasts than previously demonstrated, with implications for tooth sensitivity.

摘要

目的

评估在发育中和成熟大鼠牙齿的成牙本质细胞中电压门控钠离子通道的表达模式。

设计

我们分析了不成熟（4 周）、年轻成年（7 周）、完全成熟成年（3 个月）和老年（6-12 个月）大鼠牙齿中所有 9 种电压门控钠离子通道（Nav1.1-1.9）的α亚基免疫反应（IR）。我们对发育变化、冠/根差异、河豚毒素敏感性或抗性、与神经区域的共定位、牙周组织中的发生以及与成牙本质细胞的其他表达模式（如瞬时受体电位 A1（TRPA1））的一致性感兴趣。

结果

我们发现，Nav1.1-1.9-IR 在成熟磨牙中成牙本质细胞中具有独特的模式，这些模式与发育阶段和切牙不同。Nav1.4-和 Nav1.7-IR 在不成熟的成牙本质细胞中强烈表达，在成年时仅限于特定区域。牙本质受神经支配的冠部成牙本质细胞失去 Nav1.7-IR 并获得 Nav1.8-IR。随着年龄的增长，牙冠的 Nav1.1-和 Nav1.5-IR 染色增加，但根部减少。Nav1.9-IR 在规则散布的成牙本质细胞中特别强烈。两种河豚毒素抗性同工型（Nav1.5、Nav1.8）在牙本质神经支配区域附近的成牙本质细胞中表达强烈。Nav1.6-IR 在成年时集中在牙尖和颈成牙本质细胞中，TRPA1-IR 也是如此。Nav1.3-IR 在发育过程中除了牙本质神经支配密集的地方外，在所有成牙本质细胞中逐渐变得强烈。

结论

根据牙内位置和牙齿成熟度，所有 9 种电压门控钠离子通道都可以由成牙本质细胞表达。我们的数据揭示了成牙本质细胞比以前证明的更复杂和更具特定生态位的专业化，这对牙齿敏感性有影响。

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发育、成熟和衰老大鼠牙齿中的成牙本质细胞具有多种表型，可变表达所有 9 种电压门控钠通道。

Odontoblasts in developing, mature and ageing rat teeth have multiple phenotypes that variably express all nine voltage-gated sodium channels.

机构信息

出版信息

OBJECTIVE

DESIGN

RESULTS

CONCLUSIONS

目的

设计

结果

结论

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