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1. Accumulation, localization, and compartmentation of transforming growth factor beta during endochondral bone development.

4. Transforming growth factor beta 1 induction is associated with transforming growth factors beta 2 and beta 3 down-modulation in 12-O-tetradecanoylphorbol-13-acetate-induced skin hyperplasia

5. The Outcome of TGFβ Antagonism in Metastatic Breast Cancer Models In Vivo Reflects a Complex Balance between Tumor-Suppressive and Proprogression Activities of TGFβ.

6. Impaired healing of cornea incision injury in a TRPV1-deficient mouse.

7. Transforming growth factor-β stimulates Smad1/5 signaling in pulmonary artery smooth muscle cells and fibroblasts of the newborn mouse through ALK1.

8. Quantitation of TGF-β proteins in mouse tissues shows reciprocal changes in TGF-β1 and TGF-β3 in normal vs neoplastic mammary epithelium.

9. Inhibition of development of laser-induced choroidal neovascularization with suppression of infiltration of macrophages in Smad3-null mice.

10. Mammary epithelial cell phagocytosis downstream of TGF-β3 is characterized by adherens junction reorganization.

11. Imatinib mesylate for the treatment of steroid-refractory sclerotic-type cutaneous chronic graft-versus-host disease.

12. A flexible reporter system for direct observation and isolation of cancer stem cells.

13. Suppression of In Vivo Neovascularization by the Loss of TRPV1 in Mouse Cornea.

14. Brightfield proximity ligation assay reveals both canonical and mixed transforming growth factor-β/bone morphogenetic protein Smad signaling complexes in tissue sections.

15. Definition of smad3 phosphorylation events that affect malignant and metastatic behaviors in breast cancer cells.

16. TRPA1 is required for TGF-β signaling and its loss blocks inflammatory fibrosis in mouse corneal stroma.

17. An integrated genomic approach identifies persistent tumor suppressive effects of transforming growth factor-β in human breast cancer.

18. Transforming growth factor-β3 (TGF-β3) knock-in ameliorates inflammation due to TGF-β1 deficiency while promoting glucose tolerance.

19. Impaired cornea wound healing in a tenascin C-deficient mouse model.

20. TGF-β-SMAD3 signaling mediates hepatic bile acid and phospholipid metabolism following lithocholic acid-induced liver injury.

21. Biological responses to TGF-β in the mammary epithelium show a complex dependency on Smad3 gene dosage with important implications for tumor progression.

22. TRPV1 involvement in inflammatory tissue fibrosis in mice.

23. Suppression of injury-induced epithelial-mesenchymal transition in a mouse lens epithelium lacking tenascin-C.

24. Expression of TGF-beta signaling factors in invasive breast cancers: relationships with age at diagnosis and tumor characteristics.

25. Conditional overexpression of TGF-beta1 disrupts mouse salivary gland development and function.

26. Transient tumor-fibroblast interactions increase tumor cell malignancy by a TGF-Beta mediated mechanism in a mouse xenograft model of breast cancer.

27. Targeted disruption of Smad3 confers resistance to the development of dimethylnitrosamine-induced hepatic fibrosis in mice.

28. Halofuginone mediated protection against radiation-induced leg contracture.

29. Progressive tumor formation in mice with conditional deletion of TGF-beta signaling in head and neck epithelia is associated with activation of the PI3K/Akt pathway.

30. Transforming growth factor-(beta)s and mammary gland involution; functional roles and implications for cancer progression.

31. Smad3 loss confers resistance to the development of trinitrobenzene sulfonic acid-induced colorectal fibrosis.

32. Absence of Smad3 induces neutrophil migration after cutaneous irradiation: possible contribution to subsequent radioprotection.

33. Epithelial-mesenchymal transition as a therapeutic target for prevention of ocular tissue fibrosis.

34. Absence of Smad3 confers radioprotection through modulation of ERK-MAPK in primary dermal fibroblasts.

35. Effect of overexpression of PPARgamma on the healing process of corneal alkali burn in mice.

36. Effect of Smad7 gene overexpression on transforming growth factor beta-induced retinal pigment fibrosis in a proliferative vitreoretinopathy mouse model.

37. Loss of osteopontin perturbs the epithelial-mesenchymal transition in an injured mouse lens epithelium.

38. Pharmacodynamic characterization of chemopreventive triterpenoids as exceptionally potent inducers of Nrf2-regulated genes.

39. A new model of anterior subcapsular cataract: involvement of TGFbeta/Smad signaling.

40. Smad3 deficiency alters key structural elements of the extracellular matrix and mechanotransduction of wound closure.

41. Loss of tumor necrosis factor alpha potentiates transforming growth factor beta-mediated pathogenic tissue response during wound healing.

42. Smad3 is key to TGF-beta-mediated epithelial-to-mesenchymal transition, fibrosis, tumor suppression and metastasis.

43. Adenoviral gene transfer of BMP-7, Id2, or Id3 suppresses injury-induced epithelial-to-mesenchymal transition of lens epithelium in mice.

44. Inhibition of p38MAP kinase suppresses fibrotic reaction of retinal pigment epithelial cells.

45. Antagonizing deactivating cytokines to enhance host defense and chemotherapy in experimental visceral leishmaniasis.

46. Expression of Smad7 in mouse eyes accelerates healing of corneal tissue after exposure to alkali.

47. Therapeutic effect of topical administration of SN50, an inhibitor of nuclear factor-kappaB, in treatment of corneal alkali burns in mice.

48. Therapeutic effects of adenoviral gene transfer of bone morphogenic protein-7 on a corneal alkali injury model in mice.

49. Smad3 is required for dedifferentiation of retinal pigment epithelium following retinal detachment in mice.

50. Transient adenoviral gene transfer of Smad7 prevents injury-induced epithelial-mesenchymal transition of lens epithelium in mice.

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