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Increased Matrix Synthesis Following Adenoviral Transfer Of A Transforming Growth Factor Beta1 Gene Into Articular Chondrocytes, Franklin D. Shuler Md, Phd, Helga I. Georgescu, Christopher Niyibizi, Rebecca K. Studer, Zhibao Mi, Brian Johnstone, Paul D. Robbins, Christopher H. Evans

Orthopaedics

Monolayer cultures of lapine articular chondrocytes were transduced with first-generation adenoviral vectors carrying lacZ or transforming growth factor β₁ genes under the transcriptional control of the human cytomegalovirus early promoter. High concentrations of transforming growth factor β₁ were produced by chondrocytes following transfer of the transforming growth factor β₁ gene but not the lacZ gene. Transduced chondrocytes responded to the elevated endogenous production of transforming growth factor β₁ by increasing their synthesis of proteoglycan, collagen, and noncollagenous proteins in a dose-dependent fashion. The increases in collagen synthesis were not accompanied by alterations in the collagen phenotype; …

Transfer Of Lacz Marker Gene To The Meniscus, Hideyuki Goto Md, Franklin D. Shuler Md, Phd, Chanin Lamsam Md, Hans D. Moller Md, Christopher Niyibizi Phd, Freddie H. Fu Md, Paul D. Robbins Phd, Christopher H. Evans Phd

Orthopaedics

Background: Lesions in the avascular two-thirds of the meniscus do not heal well and are of concern clinically. Various growth factors promote the synthesis of matrix by meniscal cells and thus have the potential to augment healing. However, their clinical application is severely hindered by problems with delivery. An attractive approach to overcoming such problems is to transfer genes that encode the growth factors in question to the site of the injury. As a prelude to this, we evaluated methods for delivering genes to the meniscus.

Methods: Gene transfer was evaluated in vitro and in vivo with a lacZ marker …