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Query: EC:3.2.1.23 (
beta-galactosidase
)
14,648
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The most well-characterized intracellular signaling molecules for
transforming growth factor-beta
(
TGF-beta
) are the Smads. R-Smads interact with and are phosphorylated directly by the TGF-beta type I receptor. Phosphorylated R-Smads can then associate with Smad4, translocate to the nucleus and regulate transcription. Specific R-Smads transduce distinct signals for members of the
TGF-beta
superfamily. Smad2 and -3 mediate signaling by
TGF-beta
/activin, whereas Smad1, -5, and -8 mediate bone morphogenetic protein signaling.
TGF-beta
inhibits proliferation and hypertrophic differentiation in metatarsal organ cultures by a perichondrium-dependent mechanism. To determine the mechanism of
TGF-beta
signaling in the perichondrium, we tested the hypothesis that
TGF-beta
-restricted Smad2 and Smad3 regulate chondrocyte proliferation and differentiation in embryonic metatarsal organ cultures. Perichondrium was infected with adenoviruses containing dominant-negative forms of Smad2 (Ad-Smad2-3SA) and Smad3 (Ad-Smad3 Delta C). Proliferation and differentiation were measured in response to treatment with
TGF-beta
1. Results were compared with control bones infected with a
beta-galactosidase
reporter virus (Ad-beta-gal). Infection with Ad-Smad2-3SA completely blocked the effects of
TGF-beta
1 on metatarsal development while Ad-Smad3 Delta C only partially blocked
TGF-beta
1 effects. To further characterize the role of Smad3 in long bone development,
TGF-beta
1 responsiveness in cultures from Smad3(+/+) and Smad3(ex8/ex8) mice were compared. Loss of Smad3 only partially blocked the effects of TGF-beta1 on differentiation. In contrast, the effects of
TGF-beta
1 on chondrocyte proliferation were blocked completely. We conclude that Smad2 signaling in the perichondrium can compensate for the loss of Smad3 to regulate inhibition of hypertrophic differentiation; however, Smad3 is required for
TGF-beta
1-mediated effects on proliferation.
...
PMID:Unique and redundant roles of Smad3 in TGF-beta-mediated regulation of long bone development in organ culture. 1525 3
Skin fibrotic disorders such as systemic sclerosis (SSc) are characterized by an excessive production of extracellular matrix (ECM) and understood to develop under the influence of certain growth factors. Connective tissue growth factor (CTGF) is a cysteine-rich mitogenic peptide that is implicated in various fibrotic disorders and induced in fibroblasts after activation with
transforming growth factor-beta
(
TGF-beta
). To better understand the mechanisms of persistent fibrosis seen in SSc, we previously established an animal model of skin fibrosis induced by exogenous application of growth factors. In this model,
TGF-beta
transiently induced subcutaneous fibrosis and serial injections of CTGF after
TGF-beta
caused persistent fibrosis. To further define the mechanisms of skin fibrosis induced by
TGF-beta
and CTGF in vivo, we investigated in this study, the effects of growth factors on the promoter activity of the proalpha2 (I) collagen (COL1A2) gene in skin fibrosis. For this purpose, we utilized transgenic reporter mice harboring the -17 kb promoter sequence of the mouse COL1A2 linked to either a firefly luciferase gene or a bacterial
beta-galactosidase
gene. Serial injections of CTGF after
TGF-beta
resulted in a sustained elevation of COL1A2 mRNA expression and promoter activity compared with consecutive injection of
TGF-beta
alone on day 8. We also demonstrated that the number of fibroblasts with activated COL1A2 transcription was increased by serial injections of CTGF after
TGF-beta
in comparison with the injection of
TGF-beta
alone. Furthermore, the serial injections recruited mast cells and macrophages. The number of mast cells reached a maximum on day 4 and remained relatively high up to day 8. In contrast to the kinetics of mast cells, the number of macrophages was increased on day 4 and continued to rise during the subsequent consecutive CTGF injections until day 8. These results suggested that CTGF maintains
TGF-beta
-induced skin fibrosis by sustaining COL1A2 promoter activation and increasing the number of activated fibroblasts. The infiltrated mast cells and macrophages may also contribute to the maintenance of fibrosis.
...
PMID:Connective tissue growth factor causes persistent proalpha2(I) collagen gene expression induced by transforming growth factor-beta in a mouse fibrosis model. 1560 79
Growth factors have been shown to modulate the complex cascade of wound healing, however, interaction between different growth factors during dermal and epidermal regeneration is still not entirely defined. We have recently shown that exogenous liposomal gene transfer of cDNA results in physiologic expression and response in an acute wound. In the present study we determined the interaction between insulin-like growth factor-I (IGF-I), a mesenchymal growth factor, administered as liposomal cDNA, with other dermal and epidermal growth factors on collagen synthesis in an acute wound. Sprague-Dawley rats were given a scald burn to inflict an acute wound and divided into two groups to receive weekly subcutaneous injections of liposomes plus a
beta-galactosidase
containing plasmid (Lac Z [0.2 microg, vehicle]), or liposomes plus the IGF-I cDNA containing plasmid (2.2 microg) and Lac Z (0.2 microg). Immunological assays, histological and immunohistochemical techniques were used to determine growth factor concentration and different types of collagen (I, III, and IV) after IGF-I cDNA gene transfer. IGF-I cDNA transfer accelerated reepithelization and was associated with increased levels of IGF-I, fibroblast growth factor, keratinocyte growth factor, vascular endothelial cell growth factor, and platelet-derived growth factor protein expression. IGF-I cDNA had no effect on
transforming growth factor-beta
. IGF-I cDNA significantly increased type IV collagen while it had no effect on types I and III collagen. Exogenously administered IGF-I cDNA increased protein concentrations of keratinocyte growth factor, fibroblast growth factor, platelet-derived growth factor, and type IV collagen. We conclude that liposomal IGF-I gene transfer can accelerate wound healing without causing an increase in types I and III collagen expression.
...
PMID:Interaction of exogenous liposomal insulin-like growth factor-I cDNA gene transfer with growth factors on collagen expression in acute wounds. 1595 46
Members of
transforming growth factor-beta
(
TGF-beta
) superfamily play important roles in diverse biological functions including early development. These extracellular factors exert their effects by interacting with membrane receptors followed by signal transduction by a group of Smad proteins. Smad7 is an inhibitory Smad protein that specifically antagonizes
TGF-beta
and activin signaling. To characterize the developmental role of Smad7, a transgenic mouse model was generated using a 4.3 kb mouse Smad7 promoter driving
beta-galactosidase
expression. In these mice, the Smad7 promoter defined a restrictive expression pattern of
beta-galactosidase
in a tightly regulated temporal and spatial manner. The
beta-galactosidase
gene was transiently expressed in the cardiovascular structures including heart cushion tissues and the endothelium of major arteries at E11.5 to E12.5. Through E12.5 to E17.5,
beta-galactosidase
expression was prominently detected in the epithelium of developing cochlea and nasolacrimal duct. In addition, it was temporally expressed in trigeminal ganglion, the skeletal muscles surrounding major joints, primordium of the jaws, as well as genital tubercle. These studies indicated that the 4.3 kb Smad7 promoter contains sufficient regulatory elements to define controlled gene expression during mouse development.
...
PMID:A 4.3 kb Smad7 promoter is able to specify gene expression during mouse development. 1730 81
Neural stem cells reside in two neurogenic regions of the adult brain: the dentate gyrus of the hippocampus (DG) and the subventricular zone (SVZ). Their proliferation, differentiation, migration and survival are modulated by intrinsic and extrinsic signals, forming a neurogenic niche. Brain cytokines have only been recently regarded as possible components of this neurogenic niche. In particular, we have demonstrated that
transforming growth factor-beta
(
TGF-beta
) has a pro-neurogenic effect in the DG in a model of increased neurogenesis by adrenalectomy. We wanted to test whether
TGF-beta
has a similar effect in another neurogenic region, namely the SVZ. To test this possibility, adult rats were injected with adenoviral vectors expressing
TGF-beta
(Ad-TGF) or
beta-galactosidase
(Ad-bgal) in the SVZ and neurogenesis was evaluated 3 weeks later. We have observed that chronic
TGF-beta
expression increased neurogenesis in the ipsilateral hemisphere of Ad-TGF but not in Ad-bgal-treated rats compared to their contralateral side. In addition, an unspecific effect of the adenoviral vector per se could not be totally discarded. We conclude, under our experimental conditions, that
TGF-beta
could enhance adult neurogenesis in the SVZ. This data increase the growing evidence supporting a pro-neurogenic role of anti-inflammatory cytokines in the adult brain.
...
PMID:Chronic expression of transforming growth factor-beta enhances adult neurogenesis. 2013 2
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