Linda Zhou scite author profile

Recent findings point to low oxygen tension (hypoxia) as an important mechanism for the expression of several eukaryotic genes. We have previously shown that hypoxia (2% O2), when compared to standard oxygen tension (20% O2), upregulates the mRNA levels of the human alpha1(I) (COL1A1) procollagen gene and transforming growth factor-beta1 (TGF-beta1) in human dermal fibroblasts. In this report, we determined the effect of hypoxia on collagen synthesis and transcription. Exposure of human dermal fibroblasts to hypoxia for 24-72 h led to a threefold, dose-dependent increase in collagenous protein (P < 0.0001; r = 0.9794) and to enhanced type I procollagen deposition, as shown by direct immunofluorescence. Transient transfections with a series of luciferase- and CAT-promoter constructs of the human COL1A1 gene (spanning from -2.5 kb to +113 bp) showed that hypoxia increases the transcriptional activity of constructs having 5' endpoints between -804 bp and -107 bp, with loss of stimulation at -84 bp. Maximal increase in promoter activity in hypoxia was observed between -190 and -174 bp of the proximal promoter, once a cKrox repressor site (-199 to -224 bp) was deleted. Upregulation of COL1A1 mRNA levels in hypoxia was blocked by a TGF-beta1 anti-sense oligonucleotide, and failed to occur in fibroblasts from TGF-beta1 knock-out mice. Co-transfection and overexpression with a Smad7 construct abrogated the increase in COL1A1 promoter activity observed in hypoxia. Upregulated transcriptional activity of the TGF-beta1 promoter in hypoxia was found to be maximal between -453 and -175 bp from the transcriptional start site. Since hypoxia is a critical feature of the early phases of wound repair, we conclude that it may act as a potent physiologic stimulus for collagen synthesis. TGF-beta1 appears to be a critical component of this response.

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Large-scale plasma proteomic analysis identifies proteins and pathways associated with dementia risk

Walker

et al. 2021

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TGF-β3 Stimulates and Regulates Collagen Synthesis Through TGF-β1-Dependent and Independent Mechanisms

Murata

Zhou

Ochoa

et al. 1997

Journal of Investigative Dermatology

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In contrast to the TGF-beta1 and beta2 isoforms, TGF-beta3 has shown the ability to downregulate scarring and fibrosis in vivo under certain experimental conditions. In this study, we determined the direct effects of TGF-beta3 on cultures of human dermal fibroblasts. TGF-beta3 (0.1 to 100 pg per ml) increased DNA synthesis up to 50% (p < 0.01, r = 0.970), collagen protein synthesis up to 200% (dose range of 0.1 to 5 ng per ml, p < 0.001, r = 0.990), and increased alpha1(I) procollagen mRNA levels (r = 0.999), with maximal effects (200% of control) observed by 24 h. Collagen lattice contraction was increased by more than 50% in response to TGF-beta3 (p < 0.001), and to a similar extent as the TGF-beta1 isoform. Stimulation of collagen synthesis and of alpha1(I) procollagen mRNA levels in response to TGF-beta3 was partially blocked by a TGF-beta1-specific anti-sense oligonucleotide but was still detectable (35% greater than baseline) when TGF-beta3 was added to dermal fibroblasts from TGF-beta1 knock-out mice. In contrast with these stimulatory effects, however, downregulation of alpha1(I) procollagen, alpha1(III) procollagen, and TGF-beta1 mRNA levels toward baseline occurred when TGF-beta3 (0.1 to 5 ng per ml) was added simultaneously and in combination with TGF-beta1. We conclude that stimulation of collagen synthesis by TGF-beta3 occurs through TGF-beta1-dependent and independent pathways. By downregulating the response to TGF-beta1 and by shifting from one pathway to the other, TGF-beta3 can dampen and provide fine-tuning to the overall TGF-beta's induced program of collagen deposition.

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Significance of N‐methyl‐d‐aspartate (NMDA) receptor‐mediated signaling in human keratinocytes

Nahm

Philpot

Adams

et al. 2004

Journal Cellular Physiology

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Increasing data suggest that glutamate might act as a cell-signaling molecule in non-neuronal tissues such as the skin. Here we demonstrate the presence of functional N-methyl-D-aspartate (NMDA)-type glutamate receptors in human keratinocytes. NMDA receptor expression strongly reflects the degree of cell-to-cell contact. Wounding polarizes the expression of NMDA receptors in keratinocytes involved in re-epithelialization, and the process of re-epithelialization is inhibited by NMDA receptor activation. We also demonstrate that squamous cell carcinomas lack NMDA receptors. Our data suggest that Ca2+ entry through NMDA receptors influences the cycle of keratinocyte proliferation, differentiation, and migration during epithelialization. Moreover, NMDA receptor activation might play a role in contact-mediated inhibition of growth, a process that is absent during neoplastic pathology. This receptor may serve as a pharmacological target for modulating keratinocyte behavior and treating cutaneous disorders.

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Linda Zhou

Low oxygen tension stimulates collagen synthesis and COL1A1 transcription through the action of TGF‐β1

Large-scale plasma proteomic analysis identifies proteins and pathways associated with dementia risk

TGF-β3 Stimulates and Regulates Collagen Synthesis Through TGF-β1-Dependent and Independent Mechanisms

Significance of N‐methyl‐d‐aspartate (NMDA) receptor‐mediated signaling in human keratinocytes

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