Literature DB >> 33197014

Renal Capsule Transplantation to Assay Angiogenesis in Skeletal Development and Repair.

Anais Julien1, Simon Perrin1, Rana Abou-Khalil1, Céline Colnot2.   

Abstract

Renal capsule transplantation is a very helpful method to grow embryonic tissues or tumors in a vascular environment, allowing for long-term engraftment and biological analyses. This chapter describes the surgical procedure for the transplantation of embryonic skeletal elements in the renal capsule of adult mice and points out the manipulations that can be applied for assaying the role of angiogenesis during bone development and repair.

Entities:  

Keywords:  Angiogenesis; Renal capsule transplantation; Skeletal development; Skeletal repair

Mesh:

Year:  2021        PMID: 33197014      PMCID: PMC8522213          DOI: 10.1007/978-1-0716-1028-2_10

Source DB:  PubMed          Journal:  Methods Mol Biol        ISSN: 1064-3745


  18 in total

1.  New insights into saccular development and vascular formation in lung allografts under the renal capsule.

Authors:  Thiennu H Vu; Yemisrach Alemayehu; Zena Werb
Journal:  Mech Dev       Date:  2003-03       Impact factor: 1.882

2.  Development and characterization of efficient xenograft models for benign and malignant human prostate tissue.

Authors:  Yuzhuo Wang; Monica P Revelo; Daniel Sudilovsky; Mei Cao; Wilfred G Chen; Lester Goetz; Hui Xue; Marianne Sadar; Scott B Shappell; Gerald R Cunha; Simon W Hayward
Journal:  Prostate       Date:  2005-07-01       Impact factor: 4.104

Review 3.  Cellular and molecular interactions regulating skeletogenesis.

Authors:  Céline Colnot
Journal:  J Cell Biochem       Date:  2005-07-01       Impact factor: 4.429

4.  Osteoblast precursors, but not mature osteoblasts, move into developing and fractured bones along with invading blood vessels.

Authors:  Christa Maes; Tatsuya Kobayashi; Martin K Selig; Sophie Torrekens; Sanford I Roth; Susan Mackem; Geert Carmeliet; Henry M Kronenberg
Journal:  Dev Cell       Date:  2010-08-17       Impact factor: 12.270

5.  Distinguishing the contributions of the perichondrium, cartilage, and vascular endothelium to skeletal development.

Authors:  Céline Colnot; Chuanyong Lu; Diane Hu; Jill A Helms
Journal:  Dev Biol       Date:  2004-05-01       Impact factor: 3.582

6.  Identification of the Human Skeletal Stem Cell.

Authors:  Charles K F Chan; Gunsagar S Gulati; Rahul Sinha; Justin Vincent Tompkins; Michael Lopez; Ava C Carter; Ryan C Ransom; Andreas Reinisch; Taylor Wearda; Matthew Murphy; Rachel E Brewer; Lauren S Koepke; Owen Marecic; Anoop Manjunath; Eun Young Seo; Tripp Leavitt; Wan-Jin Lu; Allison Nguyen; Stephanie D Conley; Ankit Salhotra; Thomas H Ambrosi; Mimi R Borrelli; Taylor Siebel; Karen Chan; Katharina Schallmoser; Jun Seita; Debashis Sahoo; Henry Goodnough; Julius Bishop; Michael Gardner; Ravindra Majeti; Derrick C Wan; Stuart Goodman; Irving L Weissman; Howard Y Chang; Michael T Longaker
Journal:  Cell       Date:  2018-09-20       Impact factor: 41.582

7.  VEGF is required for growth and survival in neonatal mice.

Authors:  H P Gerber; K J Hillan; A M Ryan; J Kowalski; G A Keller; L Rangell; B D Wright; F Radtke; M Aguet; N Ferrara
Journal:  Development       Date:  1999-03       Impact factor: 6.868

8.  Transplantation of pancreatic islets into the kidney capsule of diabetic mice.

Authors:  Gregory L Szot; Pavel Koudria; Jeffrey A Bluestone
Journal:  J Vis Exp       Date:  2007-10-31       Impact factor: 1.355

9.  Periosteum contains skeletal stem cells with high bone regenerative potential controlled by Periostin.

Authors:  Oriane Duchamp de Lageneste; Anaïs Julien; Rana Abou-Khalil; Giulia Frangi; Caroline Carvalho; Nicolas Cagnard; Corinne Cordier; Simon J Conway; Céline Colnot
Journal:  Nat Commun       Date:  2018-02-22       Impact factor: 14.919

10.  Signaling through the stromal epidermal growth factor receptor is necessary for mammary ductal development.

Authors:  J F Wiesen; P Young; Z Werb; G R Cunha
Journal:  Development       Date:  1999-01       Impact factor: 6.868
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