Page 157 - 南京医科大学学报自然科学版
P. 157
第41卷第3期 郭 宇,王 凌,刘 仪,等. Wnt/β⁃catenin信号通路在骨代谢疾病中的研究进展[J].
2021年3月 南京医科大学学报(自然科学版),2021,41(03):460-464 ·463 ·
DKK1 等,其在骨代谢疾病治疗中存在很大潜能。 [11] KOOK S H,HEO J S,LEE J C. Crucial roles of canonical
然而骨代谢过程除了受经典 Wnt 通路的调控作用 Runx2⁃dependent pathway on Wnt1⁃induced osteoblastic
differentiation of human periodontal ligament fibroblasts
外,还涉及非经典 Wnt 通路、BMP/Smads 通路、OPG/
RANKL/RANK通路、Hedgehog通路和Notch通路等, [J]. Mol Cell Biochem,2015,402(1/2):213-223
[12] CHEN T,LI J,CORDOVA L A,et al. A WNT protein thera⁃
并且各条信号通路之间还会相互影响、制约和协调,
peutic improves the bone ⁃ forming capacity of autografts
Wnt/β⁃catenin 通路与这些通路之间的联系仍未阐
from aged animals[J]. Sci Rep,2018,8(1):119
明。因此,进一步深入研究Wnt/β⁃catenin 通路在骨 [13] EIJKEN M,MEIJER I M,WESTBROEK I,et al. Wnt sig⁃
代谢中的作用机制及与其他通路之间的联系,必将为 naling acts and is regulated in a human osteoblast differen⁃
骨代谢疾病的预防和治疗提供新的思路和策略。 tiation dependent manner[J]. J Cell Biochem,2008,104
[参考文献] (2):568-579
[14] SCHONITZER V,WIRTZ R,ULRICH V,et al. Sox2 is a
[1] KIM B J,KOH J M. Coupling factors involved in preserv⁃
potent inhibitor of osteogenic and adipogenic differentia⁃
ing bone balance[J]. Cell Mol Life Sci,2019,76(7):
tion in human mesenchymal stem cells[J]. Cell Repro⁃
1243-1253
gram,2014,16(5):355-365
[2] 杨芷雯,顾嘉雯,袁礼婵,等. Trio对破骨细胞的调控作
[15] MURUGANANDAN S,GOVINDARAJAN R,MCMUL⁃
用[J]. 南京医科大学学报(自然科学版),2020,40(9):
LEN N M,et al. Chemokine ⁃ like receptor 1 is a novel
1297-1301
Wnt target gene that regulates mesenchymal stem cell dif⁃
[3] APPELMAN⁃DIJKSTRA N M,PAPAPOULOS S E. Clini⁃ ferentiation[J]. Stem Cells,2017,35(3):711-724
cal advantages and disadvantages of anabolic bone thera⁃
[16] JI L,LU B,ZAMPONI R,et al. USP7 inhibits Wnt/beta⁃
pies targeting the WNT pathway[J]. Nat Rev Endocrinol,
catenin signaling through promoting stabilization of Axin
2018,14(10):605-623
[J]. Nat Commun,2019,10(1):4184
[4] NUSSE R,CLEVERS H. Wnt/beta⁃catenin signaling,dis⁃ [17] YANG B,LI S,CHEN Z,et al. Amyloid beta peptide pro⁃
ease,and emerging therapeutic modalities[J]. Cell,2017, motes bone formation by regulating Wnt/beta⁃catenin sig⁃
169(6):985-999 naling and the OPG/RANKL/RANK system[J]. FASEB
[5] XIONG L,JUNG J U,WU H,et al. Lrp4 in osteoblasts J,2020,34(3):3583-3593
suppresses bone formation and promotes osteoclastogene⁃ [18] AMIN N,BOCCARDI V,TAGHIZADEH M,et al. Probio⁃
sis and bone resorption[J]. Proc Natl Acad Sci USA, tics and bone disorders:the role of RANKL/RANK/OPG
2015,112(11):3487-3492 pathway[J]. Aging Clin Exp Res,2020,32(3):363-371
[6] VISWESWARAN M,POHL S,ARFUSO F,et al. Multi⁃ [19] ALBERS J,KELLER J,BARANOWSKY A,et al. Canoni⁃
lineage differentiation of mesenchymal stem cells ⁃ To cal Wnt signaling inhibits osteoclastogenesis independent
Wnt,or not Wnt[J]. Int J Biochem Cell Biol,2015,68: of osteoprotegerin[J]. J Cell Biol,2013,200(4):537-549
139-147 [20] AMIRHOSSEINI M,MADSEN R V,ESCOTT K J,et al.
[7] JOENG K S,SCHUMACHER C A,ZYLSTRA⁃DIEGEL C GSK⁃3beta inhibition suppresses instability⁃induced osteo⁃
R,et al. Lrp5 and Lrp6 redundantly control skeletal deve⁃ lysis by a dual action on osteoblast and osteoclast differen⁃
lopment in the mouse embryo[J]. Dev Biol,2011,359 tiation[J]. J Cell Physiol,2018,233(3):2398-2408
(2):222-229 [21] GORI F,LERNER U,OHLSSON C,et al. A new WNT on
[8] MBALAVIELE G,SHEIKH S,STAINS J P,et al. Beta⁃ the bone:WNT16,cortical bone thickness,porosity and
catenin and BMP⁃2 synergize to promote osteoblast differen⁃ fractures[J]. Bonekey Rep,2015,4:669
tiation and new bone formation[J]. J Cell Biochem,2005, [22] SUI X,DENG S,LIU M,et al. Constitutive activation of
94(2):403-418 beta ⁃ catenin in differentiated osteoclasts induces bone
[9] ZHANG R,OYAJOBI B O,HARRIS S E,et al. Wnt/beta⁃ loss in mice[J]. Cell Physiol Biochem,2018,48(5):
catenin signaling activates bone morphogenetic protein 2 2091-2102
expression in osteoblasts[J]. Bone,2013,52(1):145- [23] MAEDA K,TAKAHASHI N,KOBAYASHI Y,et al. Roles
156 of Wnt signals in bone resorption during physiological
[10] TYAGI A M,YU M,DARBY T M,et al. The microbial and pathological states[J]. J Mol Med(Berl),2013,91
metabolite butyrate stimulates bone formation via T regu⁃ (1):15-23
latory cell ⁃ mediated regulation of WNT10B expression [24] WANG Z M,LUO J Q,XU L Y,et al. Harnessing low⁃den⁃
[J]. Immunity,2018,49(6):1116-1131 sity lipoprotein receptor protein 6(LRP6)genetic varia⁃