Reduced orthodontic tooth movement in Ank knockout mice
Marta Rizk, Emily Yin Chu, Rogerio Bastos Craveiro, Merve Elmas, Sihem Brenji, Christian Niederau, Nikolaus Marx, Brian Lee Foster, Martha Joan Somerman, Michael Wolf

TL;DR
This study shows that mice lacking the Ank protein experience reduced tooth movement and increased root resorption during orthodontic treatment.
Contribution
The study reveals a novel role of the Ank protein in regulating tooth movement and root resorption during orthodontic forces.
Findings
Ank KO mice showed a 36.6% reduction in orthodontic tooth movement compared to wildtype mice.
Ank KO mice exhibited increased root resorption and thicker cementum on untreated sides.
Gene expression related to bone remodeling and hormones was altered in Ank KO mice.
Abstract
Hypercementosis has been previously reported in mice lacking progressive ankylosis protein (Ank KO mice, or Ank, KO - knockout, WT - wildtype) due to decreased levels of the mineralization inhibitor inorganic pyrophosphate. However, the impact of hypercementosis on alveolar bone remodeling and periodontal ligament (PDL) maintenance from orthodontic forces during orthodontic tooth movement (OTM) remains unclear. To investigate the roles of ANK protein on tooth movement, PDL maintenance, alveolar bone remodeling, and tooth root resorption, we performed a split-mouth model of OTM induced by a closed-coil spring stretched between the maxillary first molar and maxillary incisors in Ank KO and WT mice (including both males and females). Micro-computed tomographic analysis revealed a 36.6% reduction in OTM in Ank KO mice compared with WT mice, although OTM-induced thickening of PDL was found…
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Taxonomy
TopicsAlkaline Phosphatase Research Studies · Bone Metabolism and Diseases · Bone health and osteoporosis research
