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Mekanokänsliga proteinet PIEZO1 reglerar benhomeostas via osteoblast-osteoklast-crosstalk

Lijun Wang, Xiuling You, Sutada Lotinun, Lingli Zhang, Nan Wu, Weiguo Zou

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Nyckelinsikter

01PIEZO1 identifieras som en central sensor för mekanisk belastning i benvävnad
02Brist på PIEZO1 i osteoblaster leder till ökad bennedbrytning och spontana frakturer
03Proteinet styr kommunikationen mellan benbildande och bennedbrytande celler via kollagenproduktion
04Studien förklarar hur mekanisk belastning omvandlas till biologiska signaler för skeletthälsa

Proteinet PIEZO1 fungerar som en viktig mekanisk sensor som hjälper skelettet att anpassa sin styrka och bentäthet efter fysisk belastning.

Abstract

Wolff's law and the Utah Paradigm of skeletal physiology state that bone architecture adapts to mechanical loads. These models predict the existence of a mechanostat that links strain induced by mechanical forces to skeletal remodeling. However, how the mechanostat influences bone remodeling remains elusive. Here, we find that Piezo1 deficiency in osteoblastic cells leads to loss of bone mass and spontaneous fractures with increased bone resorption. Furthermore, Piezo1-deficient mice are resistant to further bone loss and bone resorption induced by hind limb unloading, demonstrating that PIEZO1 can affect osteoblast-osteoclast crosstalk in response to mechanical forces. At the mechanistic level, in response to mechanical loads, PIEZO1 in osteoblastic cells controls the YAP-dependent expression of type II and IX collagens. In turn, these collagen isoforms regulate osteoclast differentiation. Taken together, our data identify PIEZO1 as the major skeletal mechanosensor that tunes bone homeostasis.

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APA: Lijun Wang, Xiuling You, Sutada Lotinun, Lingli Zhang, Nan Wu, & Weiguo Zou (2020). Mekanokänsliga proteinet PIEZO1 reglerar benhomeostas via osteoblast-osteoklast-crosstalk. https://fasciaresearchdatabase.com/mechanical-sensing-protein-piezo1-regulates-bone-homeostasis-via-osteoblast-osteoclast-crosstalk/
MLA: Lijun Wang, et al. "Mekanokänsliga proteinet PIEZO1 reglerar benhomeostas via osteoblast-osteoklast-crosstalk." 2020, https://fasciaresearchdatabase.com/mechanical-sensing-protein-piezo1-regulates-bone-homeostasis-via-osteoblast-osteoclast-crosstalk/.
Chicago: Lijun Wang et al. 2020. "Mekanokänsliga proteinet PIEZO1 reglerar benhomeostas via osteoblast-osteoklast-crosstalk.". https://fasciaresearchdatabase.com/mechanical-sensing-protein-piezo1-regulates-bone-homeostasis-via-osteoblast-osteoclast-crosstalk/