Molecular Profiling of Odontoclasts during Physiological Tooth Replacement

IF 5.7 1区医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE

Journal of Dental Research Pub Date : 2025-01-29 DOI:10.1177/00220345241304756

J.I. Henriquez, S. Flibotte, K. Fu, J.M. Richman

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引用次数: 0

Abstract

The odontoclast is a rarely studied cell type that is overly active in many dental pathologies, leading to tooth loss. It is difficult to find diphyodont mammals in which either physiological or pathological root resorption can be studied. Here we use the adult leopard gecko, which has repeated cycles of physiological tooth resorption and shedding. RNA-seq was carried out to compare gene expression profiles of functional teeth to developing teeth. Genes more highly expressed in bell-stage developing teeth were related to morphogenesis ( PTHLH, SFRP2, SHH, EDAR). Some genes expressed in osteoclasts ( ACP5, CTSK, CSF1R) were relatively more abundant in functional teeth compared with developing teeth. There was, however, no differential expression of RANK and RANKL in the 2 tooth types. In addition, functional teeth expressed proteolysis genes not found in osteoclasts ( ADAMTS2, 3, 4, 14; CTSA, CTSH, CTSS). We used tartrate acid resistant phosphatase and cathepsin K (CTSK) staining to identify odontoclasts in and around the gecko dentition. There were 3 populations of CTSK cells: (1) large, functional multinucleated odontoclasts in the crown of the tooth with a ruffled border inside resorption pits; (2) smaller, precursor cells in the pulp with fewer nuclei; and (3) flattened external precursor cells next to the root and bone of attachment. We found a positive relationship between developing teeth and the population of CTSK+ cells on the root surface. We tested a candidate signal that may be involved in CTSK+ cell presence. An antagonist of CSF1R was delivered to developing teeth in vivo, which resulted in a significant decrease in CTSK and CSF1R compared with DMSO controls. Thus, the CSF1 signaling pathway is upstream of CTSK in teeth. This is the first work to detail the molecular characteristics of odontoclasts during physiological tooth shedding and to demonstrate that in vivo, local drug delivery is possible in the gecko model.

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生理性牙齿置换过程中破牙细胞的分子谱分析

破牙细胞是一种很少被研究的细胞类型，它在许多牙齿疾病中过度活跃，导致牙齿脱落。很难找到能研究生理性或病理性根吸收的双齿哺乳动物。在这里，我们使用成年豹壁虎，它有反复的生理牙齿吸收和脱落周期。采用RNA-seq比较功能牙与发育牙的基因表达谱。在钟形期发育牙齿中表达较高的基因（PTHLH, SFRP2， SHH， EDAR）与形态发生有关。在功能牙中，破骨细胞中表达的一些基因（ACP5、CTSK、CSF1R）相对于发育牙更为丰富。RANK和RANKL在2种牙型中表达无差异。此外，功能牙表达破骨细胞中未发现的蛋白水解基因(adamts2,3,4,14；Ctsa, ctsh, ctss)。我们用酒石酸耐酸磷酸酶和组织蛋白酶K （CTSK）染色鉴定壁虎牙列内和周围的破牙细胞。CTSK细胞有3个群体：(1)在牙冠上有大的、功能性的多核破牙细胞，在吸收坑内有皱褶边界；(2)髓内的前体细胞较小，细胞核较少；(3)靠近附着根和骨的外前体细胞变平。我们发现牙齿发育与牙根表面的CTSK+细胞数量呈正相关。我们测试了一个可能参与CTSK+细胞存在的候选信号。将一种CSF1R拮抗剂传递给体内发育中的牙齿，与DMSO对照相比，CTSK和CSF1R显著降低。因此，CSF1信号通路位于牙齿中CTSK的上游。这是第一次详细描述破牙细胞在生理性牙齿脱落过程中的分子特征，并证明在壁虎模型中，局部药物递送是可能的。

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来源期刊

Journal of Dental Research 医学-牙科与口腔外科

CiteScore

15.30

自引率

3.90%

发文量

155

审稿时长

3-8 weeks

期刊介绍： The Journal of Dental Research (JDR) is a peer-reviewed scientific journal committed to sharing new knowledge and information on all sciences related to dentistry and the oral cavity, covering health and disease. With monthly publications, JDR ensures timely communication of the latest research to the oral and dental community.