Regulation of intestinal epithelial cell growth by transforming growth factor type beta.
about
Loss of Apc heterozygosity and abnormal tissue building in nascent intestinal polyps in mice carrying a truncated Apc geneA family of beta 7 integrins on human mucosal lymphocytesDownregulation of TGF-β Receptor-2 Expression and Signaling through Inhibition of Na/K-ATPaseReduction of menin expression enhances cell proliferation and is tumorigenic in intestinal epithelial cellsTransforming growth factor beta1 ameliorates intestinal epithelial barrier disruption by Cryptosporidium parvum in vitro in the absence of mucosal T lymphocytes.New Therapeutics Targeting Colon Cancer Stem Cells.Stem cells: the intestinal stem cell as a paradigm.Review article: healing after inflammatory injury--coordination of a regulatory peptide network.Salivary gland expression of transforming growth factor beta isoforms in Sjogren's syndrome and benign lymphoepithelial lesionsHormonal regulation of physiological cell turnover and apoptosis.Apoptosis: implications for inflammatory bowel disease.Functional interleukin-2 receptors on intestinal epithelial cellsTGF-beta and colorectal carcinogenesis.Peroxisome proliferator-activated receptor gamma and transforming growth factor-beta pathways inhibit intestinal epithelial cell growth by regulating levels of TSC-22.Colon cancer stem cells.Regulation of transforming growth factor expression in rat intestinal epithelial cell linesAutocrine TGF-beta and stromal cell-derived factor-1 (SDF-1) signaling drives the evolution of tumor-promoting mammary stromal myofibroblasts.Human intestinal macrophages display profound inflammatory anergy despite avid phagocytic and bacteriocidal activity.Acute epithelial injury in the rat small intestine in vivo is associated with expanded expression of transforming growth factor alpha and betaRadiation and the microenvironment - tumorigenesis and therapy.Epithelial stem cell-related alterations in Trichinella spiralis-infected small intestine.Smad7 inhibits autocrine expression of TGF-β2 in intestinal epithelial cells in baboon necrotizing enterocolitisPharmacological induction of transforming growth factor-beta1 in rat models enhances radiation injury in the intestine and the heartTransforming growth factor β1 increases p27 levels via synthesis and degradation mechanisms in the hyperproliferative gastric epithelium in rats.Developmental changes of TGF-β1 and Smads signaling pathway in intestinal adaption of weaned pigs.Cellular sources of transforming growth factor-beta isoforms in early and chronic radiation enteropathy.Mutagenesis of the catalytic triad of tissue transglutaminase abrogates coeliac disease serum IgA autoantibody binding.Rab11a regulates syntaxin 3 localization and microvillus assembly in enterocytesIntestinal apoptotic changes linked to metabolic status in fasted and refed rats.Activation of protein kinase C isozymes is associated with post-mitotic events in intestinal epithelial cells in situ.Specific overexpression of IL-7 in the intestinal mucosa: the role in intestinal intraepithelial lymphocyte development.TGF-{beta}-dependent CD103 expression by CD8(+) T cells promotes selective destruction of the host intestinal epithelium during graft-versus-host disease.MicroRNAs in colorectal cancer stem cells: new regulators of cancer stemness?Growth factor TGF-β induces intestinal epithelial cell (IEC-6) differentiation: miR-146b as a regulatory component in the negative feedback loop.Immunohistochemical localization of TGF beta 1, TGF beta 2, and TGF beta 3 in the mouse embryo: expression patterns suggest multiple roles during embryonic developmentDown-regulation of TGF-beta receptors in human colorectal cancer: implications for cancer development.Retinoic acid induces transforming growth factor-beta 2 in cultured keratinocytes and mouse epidermis.Differential DNA methylation patterns of homeobox genes in proximal and distal colon epithelial cells.Regulation of metastasis in colorectal adenocarcinoma: a collision between development and tumor biology.Enterocyte-specific regulation of the apical nutrient transporter SLC6A19 (B(0)AT1) by transcriptional and epigenetic networks.
P2860
Q24562061-C1B3ECAE-DCC5-46E4-B9D4-BFCCDF23C27AQ28118921-ED4D4BF7-41D1-4E3C-9FF5-B4ADA0634261Q28555194-C94D70DD-53DE-4248-B32A-7B1D508B8E16Q28579115-F9D69A81-E11B-48AF-91BB-24516E17B2EBQ30306095-0177DB3F-835B-4238-B3BE-15F89E381283Q33639180-B07855F8-BE4A-43A0-BD52-CA44C4E1DCE1Q33846215-CB310E36-72FE-480E-826A-7CF295AEDC82Q33916497-BE68495B-7CEC-43BD-A7E3-A47ED4D63BB9Q33919124-910D76F2-9D78-4EF0-B3AD-DAFEFCCA1E83Q33992348-60C0B447-56D1-456E-806C-21A13CF26D7DQ34015892-CF0FD0EF-4088-4C3E-B4E8-C7D7C63AC3F5Q34114634-2C989776-1E5C-40FE-B2CE-7BCF1316AE77Q34136526-675A2923-64E9-462D-A2EC-DE29794DCDCAQ34162969-F498AD4F-76DD-428F-9F0C-3C6677B050E8Q34176427-9AF9A803-1FB7-4EE2-85C0-E6B52F928684Q34265473-F899857C-9FB3-4DB6-A194-F1D44FFD1262Q34358613-8BAFB240-8DC0-4BBD-A1A4-80B4A29B9241Q34381271-5C0C83A8-5DB4-414A-83C8-534C124FEC3DQ34409671-354D0BC4-47F0-47AD-AEAA-456D9D6CA18FQ34472892-1A238010-E0A3-4061-96E2-743ED4D3278CQ34475786-8CB87B6E-06FF-414F-8FDF-C1BDE243D22EQ34645458-355B1A05-ABA1-46ED-BD8D-10AE8A112342Q34922963-AA976C1E-9D6B-4492-B097-BA2FBF3C2E8FQ35202325-02ADC981-C8F3-44E7-BB79-5669B4C5FFE0Q35234945-B5E5678D-BA6E-49B0-9B2D-31877CDF7EFAQ35754531-56D58C71-9336-4FCB-A618-319F7CB60EB1Q35761388-D39CD71C-5A0B-4E44-88B3-B3A7527980EDQ35898812-AEF40B51-0D45-4AF9-849A-49042326C590Q36176183-782A263A-6BC0-43A3-BD40-9ECD4FF75A5AQ36234552-B8F98862-B0B2-4093-9FEB-0545FD94B10FQ36300132-681FA99F-0376-4AA7-AFBD-ED1D6A34F0BBQ36402998-B8D45B83-B07F-4B58-9468-09D0D407EDA7Q36438314-F14640C8-4EFA-4FAE-A1A3-072B1CEE96F9Q36502003-53F34D37-4200-4B81-B807-9686B94756DDQ36532922-D861C73A-BE72-46EC-AF6E-ABC178EE3D6DQ36620077-8D0E118F-5359-46EA-AD34-CBA65C9B3720Q36734355-8BCFDB12-3919-403E-8A12-36B0A57F7F62Q36775698-3021D17A-8BE1-465F-B0B8-534F39EF964CQ36996297-0E9F00F7-372D-4BB4-BA23-E6D1BA6358BCQ37333742-10959294-075B-4947-B142-C433BBEF5124
P2860
Regulation of intestinal epithelial cell growth by transforming growth factor type beta.
description
1989 nî lūn-bûn
@nan
1989 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1989 թվականի մարտին հրատարակված գիտական հոդված
@hy
1989年の論文
@ja
1989年論文
@yue
1989年論文
@zh-hant
1989年論文
@zh-hk
1989年論文
@zh-mo
1989年論文
@zh-tw
1989年论文
@wuu
name
Regulation of intestinal epithelial cell growth by transforming growth factor type beta.
@ast
Regulation of intestinal epithelial cell growth by transforming growth factor type beta.
@en
type
label
Regulation of intestinal epithelial cell growth by transforming growth factor type beta.
@ast
Regulation of intestinal epithelial cell growth by transforming growth factor type beta.
@en
prefLabel
Regulation of intestinal epithelial cell growth by transforming growth factor type beta.
@ast
Regulation of intestinal epithelial cell growth by transforming growth factor type beta.
@en
P2093
P2860
P356
P1476
Regulation of intestinal epithelial cell growth by transforming growth factor type beta.
@en
P2093
J A Barnard
R D Beauchamp
R J Coffey
P2860
P304
P356
10.1073/PNAS.86.5.1578
P407
P577
1989-03-01T00:00:00Z