G. Gurujeyalakshmi scite author profile

The present study was undertaken to elucidate the mechanism for the antifibrotic effect of interferon gamma (IFN-gamma) in the bleomycin (BL)-mouse model of lung fibrosis. The expression of transforming growth factor (TGF-beta) and procollagen I and III and their mRNAs was investigated in the BL-mouse model of lung fibrosis with and without IFN-gamma treatment by Northern and slot blot analyses. Temporal changes in the content of procollagen and TGF-beta mRNAs in the lungs of mice receiving saline or BL by intratracheal route, with and without IFN-gamma treatment by intramuscular route, were quantitated. The level of TGF-beta mRNA increased rapidly and peaked at day 5, whereas the levels of mRNAs for procollagens alpha 1(I) and alpha 1(III) peaked at 10 days after BL instillation. The peak levels of these mRNAs in BL-treated animals were five- to sevenfold higher than those of the control. The increase in TGF-beta mRNA in the lungs of BL-treated mice preceded the increase in the synthesis of type I and type III procollagen mRNAs. BL treatment also increased the hydroxyproline content significantly from 3 to 14 days as compared to the corresponding saline control groups. A maximal increase to 447 micrograms/lung from 223 micrograms/lung in saline control was obtained at 10 days after instillation. Daily treatment with IFN-gamma markedly reduced the BL-induced increases in the mRNA levels of TGF-beta, and procollagen alpha 1(I) and alpha 1(III) without any effect on the lung level of beta-actin mRNA. IFN-gamma treatment also caused significant reduction in the BL-induced increase in the lung hydroxyproline content from 417 to 283 micrograms/lung at 7 days and from 447 to 264 micrograms/lung at 10 days. It may be concluded from the findings of the present study that the cellular mechanisms for the antifibrotic effect of IFN-gamma in the BL-mouse model of lung fibrosis are to initially downregulate the BL-induced overexpression of TGF-beta mRNA, and subsequently procollagen mRNAs, leading to a decreased collagen content.

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Pirfenidone inhibits PDGF isoforms in bleomycin hamster model of lung fibrosis at the translational level

Gurujeyalakshmi

Hollinger

Giri

1999

American Journal of Physiology-Lung Cellular and Molecular Phys

131

104

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Pirfenidone (PD) is known for its antifibrotic effects in the bleomycin (BL) hamster model of lung fibrosis. We evaluated whether pretreatment of hamsters with PD could influence the effects of BL-induced overexpression of platelet-derived growth factor (PDGF)-A and PDGF-B genes and proteins in the same model of lung fibrosis. We demonstrate elevated levels of PDGF-A and PDGF-B mRNAs in bronchoalveolar lavage (BAL) cells from lungs of BL-treated compared with saline control hamsters by RT-PCR analysis. However, these levels were not altered in BAL cells obtained from BL-treated hamsters on diets containing 0.5% PD. Western blot analysis of BAL fluid for PDGF isoforms demonstrated that PD treatment inhibited the synthesis of both PDGF-A and PDGF-B isoforms. PD treatment also decreased the mitogenic activity in the BAL fluid from BL-treated hamster lungs. Taken together, these data provide evidence that the protective effects of PD against BL-induced lung fibrosis may be mediated by a reduction in PDGF isoforms produced by lung macrophages.

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Suppression of Bleomycin-Induced Nitric Oxide Production in Mice by Taurine and Niacin

2000

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Regulation of Transforming Growth Factor- β₁mRNA Expression by Taurine and Niacin in the Bleomycin Hamster Model of Lung Fibrosis

Gurujeyalakshmi

Hollinger

Giri

1998

Am J Respir Cell Mol Biol

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We have reported that taurine (T) and niacin (N) inhibit the expression of procollagen type I and type III genes at the level of gene transcription in the bleomycin (BL) hamster model of lung fibrosis. In the present study, we have investigated the effects of TN in diet on the temporal expression of transforming growth factor-beta1 (TGF-beta1) mRNA and TGF-beta1 protein production in the same model of lung fibrosis to determine whether the decreased transcription of procollagen genes is associated with downregulation of TGF-beta1 mRNA. Our results demonstrate that expression of TGF-beta1 mRNA in lungs is increased in BL-treated hamsters in the BL + control diet (CD) group, compared to saline controls in the saline-instilled (SA) + CD group, by 3.5-, 2.5-, 4-, and 2-fold at 3, 7, 14, and 21 d, respectively, and TN treatment caused significant decreases in TGF-beta1 mRNA expression in BL-treated animals in the BL + TN group from Day 3 through Day 21. In addition, TN treatment also reduced TGF-beta1 protein in bronchoalveolar lavage fluid (BALF) from BL-treated animals in the BL + TN group. These decreases in TGF-beta1 mRNA and TGF-beta1 protein correlated with decreased lung collagen content in hamsters in the BL + TN group as demonstrated in our earlier study. To confirm that the TGF-beta1 activity observed in BALF is reflected at the transcriptional level, total RNA was isolated from lavaged cells. Reverse transcriptase-polymerase chain reaction analysis demonstrated maximal expression of TGF-beta1 mRNA transcripts in BL-treated lavaged cells from animals in the BL + CD group and only low levels were detected in both saline control groups, and in BL + TN-treated lavaged cells. Nuclear runoff analysis indicated that TN-mediated reduction of TGF-beta1 mRNA steady-state levels was a result of decreased gene transcription, suggesting a transcriptional downregulation mechanism. Our results indicate that the combined treatment with TN ameliorates BL-induced lung fibrosis, at least in part, via inhibition of TGF-beta1 mRNA expression.

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Isolation of phenol-degrading Bacillus stearothermophilus and partial characterization of the phenol hydroxylase

Gurujeyalakshmi

Oriel

1989

Appl Environ Microbiol

123

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