分子马达MYO1C、乙酰转移酶KAT6B和成骨转录因子RUNX2在人类咬肌中的表达促进错牙合畸形的发展。

Molecular motor MYO1C, acetyltransferase KAT6B and osteogenetic transcription factor RUNX2 expression in human masseter muscle contributes to development of malocclusion.

作者信息

Desh Heather, Gray S Lauren, Horton Michael J, Raoul Gwenael, Rowlerson Anthea M, Ferri Joel, Vieira Alexandre R, Sciote James J

机构信息

Orthodontic Private Practice,1649 Bluebird Canyon Drive, Laguna Beach, CA, United States.

Orthodontic Department, Temple University, 3223 North Broad Street, Philadelphia, PA, United States.

出版信息

Arch Oral Biol. 2014 Jun;59(6):601-7. doi: 10.1016/j.archoralbio.2014.03.005. Epub 2014 Mar 20.

DOI:10.1016/j.archoralbio.2014.03.005

PMID:24698832

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4049538/

Abstract

OBJECTIVE

Type I myosins are molecular motors necessary for glucose transport in the cytoplasm and initiation of transcription in the nucleus. Two of these, MYO1H and MYO1C, are paralogs which may be important in the development of malocclusion. The objective of this study was to investigate their gene expression in the masseter muscle of malocclusion subjects. Two functionally related proteins known to contribute to malocclusion were also investigated: KAT6B (a chromatin remodelling epigenetic enzyme which is activated by MYO1C) and RUNX2 (a transcription factor regulating osteogenesis which is activated by KAT6B).

DESIGN

Masseter muscle samples and malocclusion classifications were obtained from orthognathic surgery subjects. Muscle was sectioned and immunostained to determine fibre type properties. RNA was isolated from the remaining sample to determine expression levels for the four genes by TaqMan(®) RT-PCR. Fibre type properties, gene expression quantities and malocclusion classification were compared.

RESULTS

There were very significant associations (P<0.0000001) between MYO1C and KAT6B expressions. There were also significant associations (P<0.005) between RUNX2 expression and masseter muscle type II fibre properties. Very few significant associations were identified between MYO1C and masseter muscle fibre type properties.

CONCLUSIONS

The relationship between MYO1C and KAT6B suggests that the two are interacting in chromatin remodelling for gene expression. This is the nuclear myosin1 (NM1) function of MYO1C. A surprising finding is the relationship between RUNX2 and type II masseter muscle fibres, since RUNX2 expression in mature muscle was previously unknown. Further investigations are necessary to elucidate the role of RUNX2 in adult masseter muscle.

摘要

目的

I型肌球蛋白是细胞质中葡萄糖转运及细胞核中转录起始所必需的分子马达。其中的MYO1H和MYO1C是旁系同源物，可能在错牙合畸形的发生发展中起重要作用。本研究的目的是调查它们在错牙合畸形受试者咬肌中的基因表达。还研究了已知与错牙合畸形相关的两种功能相关蛋白：KAT6B（一种由MYO1C激活的染色质重塑表观遗传酶）和RUNX2（一种由KAT6B激活的调节骨生成的转录因子）。

设计

从正颌外科手术受试者获取咬肌样本并进行错牙合畸形分类。将肌肉切片并进行免疫染色以确定纤维类型特性。从剩余样本中分离RNA，通过TaqMan® RT-PCR确定这四个基因的表达水平。比较纤维类型特性、基因表达量和错牙合畸形分类。

结果

MYO1C和KAT6B的表达之间存在非常显著的关联（P<0.0000001）。RUNX2表达与咬肌II型纤维特性之间也存在显著关联（P<0.005）。在MYO1C和咬肌纤维类型特性之间未发现显著关联。

结论

MYO1C和KAT6B之间的关系表明二者在染色质重塑以进行基因表达过程中相互作用。这是MYO1C的核肌球蛋白1（NM1）功能。一个惊人的发现是RUNX2与咬肌II型纤维之间的关系，因为之前尚不清楚RUNX2在成熟肌肉中的表达情况。有必要进一步研究以阐明RUNX2在成人咬肌中的作用。

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分子马达MYO1C、乙酰转移酶KAT6B和成骨转录因子RUNX2在人类咬肌中的表达促进错牙合畸形的发展。

Molecular motor MYO1C, acetyltransferase KAT6B and osteogenetic transcription factor RUNX2 expression in human masseter muscle contributes to development of malocclusion.

作者信息

机构信息

出版信息

OBJECTIVE

DESIGN

RESULTS

CONCLUSIONS

目的

设计

结果

结论

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