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Literature DB >> 25346885

Osteocyte biology and space flight.

Paola Divieti Pajevic¹, Jordan M Spatz¹, Jenna Garr¹, Chris Adamson², Lowell Misener².

Abstract

The last decade has seen an impressive expansion of our understanding of the role of osteocytes in skeletal homeostasis. These amazing cells, deeply embedded into the mineralized matrix, are the key regulators of bone homeostasis and skeletal mechano sensation and transduction. They are the cells that can sense the mechanical forces applied to the bone and then translate these forces into biological responses. They are also ideally positioned to detect and respond to hormonal stimuli and to coordinate the function of osteoblasts and osteoclasts through the production and secretion of molecules such as Sclerostin and RANKL. How osteocytes perceive mechanical forces and translate them into biological responses in still an open question. Novel "in vitro" models as well the opportunity to study these cells under microgravity condition, will allow a closer look at the molecular and cellular mechanisms of mechano transduction. This article highlights novel investigations on osteocytes and discusses their significance in our understanding of skeletal mechano transduction.

Entities: CellLine Chemical Disease Gene Species

Year: 2013 PMID： 25346885 PMCID： PMC4205970 DOI： 10.2174/22115501113029990017

Source DB: PubMed Journal: Curr Biotechnol ISSN： 2211-5501

23 in total

1. Activation of nervous system development genes in bone marrow derived mesenchymal stem cells following spaceflight exposure.

Authors: Massimiliano Monticone; Yi Liu; Natalija Pujic; Ranieri Cancedda
Journal: J Cell Biochem Date: 2010-10-01 Impact factor: 4.429

Review 2. Molecular regulation of mechanotransduction.

Authors: Jameel Iqbal; Mone Zaidi
Journal: Biochem Biophys Res Commun Date: 2005-03-18 Impact factor: 3.575

Review 3. The osteocyte lineage.

Authors: Brendon S Noble
Journal: Arch Biochem Biophys Date: 2008-04-18 Impact factor: 4.013

4. Receptors for the carboxyl-terminal region of pth(1-84) are highly expressed in osteocytic cells.

Authors: P Divieti; N Inomata; K Chapin; R Singh; H Jüppner; F R Bringhurst
Journal: Endocrinology Date: 2001-02 Impact factor: 4.736

5. Cell line IDG-SW3 replicates osteoblast-to-late-osteocyte differentiation in vitro and accelerates bone formation in vivo.

Authors: Stacey M Woo; Jennifer Rosser; Vladimir Dusevich; Ivo Kalajzic; Lynda F Bonewald
Journal: J Bone Miner Res Date: 2011-11 Impact factor: 6.741

6. Osteocyte apoptosis is induced by weightlessness in mice and precedes osteoclast recruitment and bone loss.

Authors: J Ignacio Aguirre; Lilian I Plotkin; Scott A Stewart; Robert S Weinstein; A Michael Parfitt; Stavros C Manolagas; Teresita Bellido
Journal: J Bone Miner Res Date: 2006-04-05 Impact factor: 6.741

7. Mechanical stimulation prevents osteocyte apoptosis: requirement of integrins, Src kinases, and ERKs.

Authors: L I Plotkin; I Mathov; J I Aguirre; A M Parfitt; S C Manolagas; T Bellido
Journal: Am J Physiol Cell Physiol Date: 2005-05-04 Impact factor: 4.249

8. Establishment of an osteocyte-like cell line, MLO-Y4.

Authors: Y Kato; J J Windle; B A Koop; G R Mundy; L F Bonewald
Journal: J Bone Miner Res Date: 1997-12 Impact factor: 6.741

9. The influence of immobilization on osteocyte morphology: osteocyte differential count and electron microscopical studies.

Authors: B Krempien; C Manegold; E Ritz; J Bommer
Journal: Virchows Arch A Pathol Anat Histol Date: 1976-04-05

10. Mechanical stimulation of bone in vivo reduces osteocyte expression of Sost/sclerostin.

Authors: Alexander G Robling; Paul J Niziolek; Lee A Baldridge; Keith W Condon; Matthew R Allen; Imranul Alam; Sara M Mantila; Jelica Gluhak-Heinrich; Teresita M Bellido; Stephen E Harris; Charles H Turner
Journal: J Biol Chem Date: 2007-12-17 Impact factor: 5.157

10 in total

1. Ex vivo construction of human primary 3D-networked osteocytes.

Authors: Qiaoling Sun; Saba Choudhary; Ciaran Mannion; Yair Kissin; Jenny Zilberberg; Woo Y Lee
Journal: Bone Date: 2017-09-21 Impact factor: 4.398

2. Hypoxic Three-Dimensional Cellular Network Construction Replicates Ex Vivo the Phenotype of Primary Human Osteocytes.

Authors: Saba Choudhary; Qiaoling Sun; Ciaran Mannion; Yair Kissin; Jenny Zilberberg; Woo Y Lee
Journal: Tissue Eng Part A Date: 2017-08-02 Impact factor: 3.845

3. Ex vivo replication of phenotypic functions of osteocytes through biomimetic 3D bone tissue construction.

Authors: Qiaoling Sun; Saba Choudhary; Ciaran Mannion; Yair Kissin; Jenny Zilberberg; Woo Y Lee
Journal: Bone Date: 2017-10-21 Impact factor: 4.398

Review 4. In Vitro Models of Bone Marrow Remodelling and Immune Dysfunction in Space: Present State and Future Directions.

Authors: Ryan Sarkar; Francesco Pampaloni
Journal: Biomedicines Date: 2022-03-24

5. Ex vivo 3D osteocyte network construction with primary murine bone cells.

Authors: Qiaoling Sun; Yexin Gu; Wenting Zhang; Leah Dziopa; Jenny Zilberberg; Woo Lee
Journal: Bone Res Date: 2015-09-15 Impact factor: 13.567

Review 6. The Mechanosensory Role of Osteocytes and Implications for Bone Health and Disease States.

Authors: Jung Un Ally Choi; Amanda W Kijas; Jan Lauko; Alan E Rowan
Journal: Front Cell Dev Biol Date: 2022-02-21

7. Long-term osteogenic differentiation of human bone marrow stromal cells in simulated microgravity: novel proteins sighted.

Authors: Giulia Montagna; Giuseppe Pani; Dani Flinkman; Francesco Cristofaro; Barbara Pascucci; Luca Massimino; Luigi Antonio Lamparelli; Lorenzo Fassina; Peter James; Eleanor Coffey; Giuseppina Rea; Livia Visai; Angela Maria Rizzo
Journal: Cell Mol Life Sci Date: 2022-10-01 Impact factor: 9.207