A new type of TGF‐beta, TGF‐beta 3, has been identified by cDNA characterization. The amino acid sequence of mature TGF‐beta 3 and its precursor has been derived from porcine and human cDNA sequences. The human TGF‐beta 3 gene is spread over seven exons as in the case of the TGF‐beta 1 gene. Comparison with TGF‐beta 1 and ‐beta 2 indicates a strong conservation of the mature sequences, but a relaxed homology in the precursor segments. TGF‐beta 3 mRNA is mainly expressed in cell lines from mesenchymal origin, suggesting a biological role different from the other TGFs‐beta.
Recent cDNA characterization has predicted the existence of a new member of the transforming growth factor family, transforming growth factor-beta 3 (TGF beta 3). However, nothing is known about the biological activities of the TGF beta 3 protein, since it has not been purified from any natural sources. We report here the recombinant expression in mammalian cells and the purification to apparent homogeneity of human TGF beta 3. The TGF beta 3 was evaluated in comparison with purified TGF beta 1 and TGF beta 2 in several assays for its effects on stimulation or inhibition of proliferation of mammalian cells. These analyses revealed that TGF beta 3 exerts activities similar to the two other TGF beta species, but that there are distinct differences in potencies between the different TGF beta forms depending on the cell type and assay used.
Murine transforming growth factor-beta 2 (TGF-beta 2) cDNAs were isolated from cDNA libraries derived from a differentiated murine embryonic carcinoma cell line, PCC3. The composite cDNA sequence is 4267 nucleotides long, including a 1217 nucleotides 5'-untranslated sequence, and encodes a murine TGF-beta 2 precursor of 414 amino acids with 96% identity to its human counterpart. Several consensus polyadenylation sequences are present in the 1807 nucleotides 3'-untranslated sequence. Five TGF-beta 2 mRNA species are observed in the developing mouse fetus and they show different patterns of expression during development. TGF-beta 2 mRNA expression was also examined in adult mouse tissues, in which four of the five RNA species were observed. TGF-beta 2 mRNAs were present in all adult mouse tissues examined, except liver, and was most abundant in placenta, the male submaxillary gland and lung. The patterns of expression suggest a physiological role for TGF-beta 2 both in embryonic development and in the maintenance of adult tissues.
TGF beta, initially described as a factor that stimulates rodent fibroblast cell lines to proliferate in soft agar, has been shown to be active in several biological processes. The in vitro biological activities of the closely related molecules, TGF beta 1, TGF beta 2, and TGF beta 3, are comparable. Northern blot analyses of adult and embryonic tissues have shown the TGF beta mRNAs to be expressed in vivo, yet their patterns of expression appear somewhat different. In addition, even when all the TGF beta s are expressed in a tissue at the same time, the expression observed has been shown to be localized to different cells within the organ in some cases. This suggests that perhaps these molecules may have activities or functions in mice that are not apparent in vitro. Several members of the TGF beta family of genes have been mapped to mouse chromosome locations near loci previously assigned morphogenetic mutant loci. Although the relationship between the TGF beta genes and these loci have not been proven to be allelic, they may reveal important clues to the true activities of these molecules in vivo.
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