BIOMAT Database Logo BIOMAT Database Logo

Control of type I collagen genes in scleroderma and normal fibroblasts. 1990

B de Crombrugghe, and T Vuorio, and G Karsenty
Department of Molecular Genetics, University of Texas, M.D. Anderson Cancer Center, Houston.

Increased gene transcription is a mechanism responsible for the exaggerated accumulation of type I and III collagens in scleroderma and other fibrotic syndromes. We review recent studies on the mechanisms that control transcription of the alpha 1 (I) and alpha 2 (I) collagen genes. Several specific DNA binding proteins have been identified which either activate or inhibit transcription of these genes. It is probable that the complexity of transcription factors that control the type I collagen genes corresponds to a multiplicity of cytokines and other hormonal effectors, which influence the expression of these genes by binding to specific receptors and by activating intracellular signaling pathways.

UI MeSH Term Description Entries
D012045 Regulatory Sequences, Nucleic Acid Nucleic acid sequences involved in regulating the expression of genes. Nucleic Acid Regulatory Sequences,Regulatory Regions, Nucleic Acid (Genetics),Region, Regulatory,Regions, Regulatory,Regulator Regions, Nucleic Acid,Regulatory Region,Regulatory Regions
D003094 Collagen A polypeptide substance comprising about one third of the total protein in mammalian organisms. It is the main constituent of SKIN; CONNECTIVE TISSUE; and the organic substance of bones (BONE AND BONES) and teeth (TOOTH). Avicon,Avitene,Collagen Felt,Collagen Fleece,Collagenfleece,Collastat,Dermodress,Microfibril Collagen Hemostat,Pangen,Zyderm,alpha-Collagen,Collagen Hemostat, Microfibril,alpha Collagen
D005347 Fibroblasts Connective tissue cells which secrete an extracellular matrix rich in collagen and other macromolecules. Fibroblast
D005786 Gene Expression Regulation Any of the processes by which nuclear, cytoplasmic, or intercellular factors influence the differential control (induction or repression) of gene action at the level of transcription or translation. Gene Action Regulation,Regulation of Gene Expression,Expression Regulation, Gene,Regulation, Gene Action,Regulation, Gene Expression
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D012313 RNA A polynucleotide consisting essentially of chains with a repeating backbone of phosphate and ribose units to which nitrogenous bases are attached. RNA is unique among biological macromolecules in that it can encode genetic information, serve as an abundant structural component of cells, and also possesses catalytic activity. (Rieger et al., Glossary of Genetics: Classical and Molecular, 5th ed) RNA, Non-Polyadenylated,Ribonucleic Acid,Gene Products, RNA,Non-Polyadenylated RNA,Acid, Ribonucleic,Non Polyadenylated RNA,RNA Gene Products,RNA, Non Polyadenylated
D012595 Scleroderma, Systemic A chronic multi-system disorder of CONNECTIVE TISSUE. It is characterized by SCLEROSIS in the SKIN, the LUNGS, the HEART, the GASTROINTESTINAL TRACT, the KIDNEYS, and the MUSCULOSKELETAL SYSTEM. Other important features include diseased small BLOOD VESSELS and AUTOANTIBODIES. The disorder is named for its most prominent feature (hard skin), and classified into subsets by the extent of skin thickening: LIMITED SCLERODERMA and DIFFUSE SCLERODERMA. Sclerosis, Systemic,Systemic Scleroderma,Systemic Sclerosis
D014158 Transcription, Genetic The biosynthesis of RNA carried out on a template of DNA. The biosynthesis of DNA from an RNA template is called REVERSE TRANSCRIPTION. Genetic Transcription
D015291 Transforming Growth Factors Hormonally active polypeptides that can induce the transformed phenotype when added to normal, non-transformed cells. They have been found in culture fluids from retrovirally transformed cells and in tumor-derived cells as well as in non-neoplastic sources. Their transforming activities are due to the simultaneous action of two otherwise unrelated factors, TRANSFORMING GROWTH FACTOR ALPHA and TRANSFORMING GROWTH FACTOR BETA. Transforming Growth Factor,Factor, Transforming Growth,Factors, Transforming Growth,Growth Factor, Transforming,Growth Factors, Transforming

Related Publications

B de Crombrugghe, and T Vuorio, and G Karsenty
Activation of type I collagen genes in cultured scleroderma fibroblasts.
January 1985, Journal of cellular biochemistry,
B de Crombrugghe, and T Vuorio, and G Karsenty
Collagen type I is not under autocrine control by transforming growth factor-beta 1 in normal and scleroderma fibroblasts.
December 1994, Laboratory investigation; a journal of technical methods and pathology,
B de Crombrugghe, and T Vuorio, and G Karsenty
Increased type I collagen mRNA levels in cultured scleroderma fibroblasts.
February 1984, Biochimica et biophysica acta,
B de Crombrugghe, and T Vuorio, and G Karsenty
Connective tissue synthesis by cultured scleroderma fibroblasts. I. In vitro collagen synthesis by normal and scleroderma dermal fibroblasts.
January 1976, Arthritis and rheumatism,
B de Crombrugghe, and T Vuorio, and G Karsenty
Effect of nitric oxide and peroxynitrite on type I collagen synthesis in normal and scleroderma dermal fibroblasts.
July 2007, Free radical biology & medicine,
B de Crombrugghe, and T Vuorio, and G Karsenty
EM703, the new derivative of erythromycin, inhibits transcription of type I collagen in normal and scleroderma fibroblasts.
March 2008, Journal of dermatological science,
B de Crombrugghe, and T Vuorio, and G Karsenty
Scleroderma lung fibroblasts exhibit elevated and dysregulated type I collagen biosynthesis.
July 1997, Arthritis and rheumatism,
B de Crombrugghe, and T Vuorio, and G Karsenty
Collagen synthesis regulation by the aminopropeptide of procollagen I in normal and scleroderma fibroblasts.
June 1985, Arthritis and rheumatism,
B de Crombrugghe, and T Vuorio, and G Karsenty
Solubility of collagen from normal and scleroderma fibroblasts in culture.
January 1975, Biochemical and biophysical research communications,
B de Crombrugghe, and T Vuorio, and G Karsenty
Human collagen Krox up-regulates type I collagen expression in normal and scleroderma fibroblasts through interaction with Sp1 and Sp3 transcription factors.
November 2007, The Journal of biological chemistry,
Copied contents to your clipboard!