Increased matrix synthesis following adenoviral transfer of a transforming growth factor β1 gene into articular chondrocytes

Abstract

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; type-II collagen remained the predominant collagen. Transforming growth factor β₁ could not, however, rescue the collagen phenotype of cells that had undergone phenotypic modulation as a result of serial passaging. These data demonstrate that chondrocytes can be genetically manipulated to produce and respond to the potentially therapeutic cytokine transforming growth factor β₁. This technology has a number of experimental and therapeutic applications, including those related to the study and treatment of arthritis and cartilage repair.