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Items: 1 to 20 of 176

1.

High prevalence of Foxp3 and IL17 in MMR-proficient colorectal carcinomas.

Le Gouvello S, Bastuji-Garin S, Aloulou N, Mansour H, Chaumette MT, Berrehar F, Seikour A, Charachon A, Karoui M, Leroy K, Farcet JP, Sobhani I.

Gut. 2008 Jun;57(6):772-9.

PMID:
17965063
2.

Tumour-infiltrating lymphocytes in colorectal cancer with microsatellite instability are activated and cytotoxic.

Phillips SM, Banerjea A, Feakins R, Li SR, Bustin SA, Dorudi S.

Br J Surg. 2004 Apr;91(4):469-75.

PMID:
15048750
3.

Fas ligand and tumour counter-attack in colorectal cancer stratified according to microsatellite instability status.

Michael-Robinson JM, Pandeya N, Cummings MC, Walsh MD, Young JP, Leggett BA, Purdie DM, Jass JR, Radford-Smith GL.

J Pathol. 2003 Sep;201(1):46-54.

PMID:
12950016
4.

Tumour infiltrating lymphocytes and apoptosis are independent features in colorectal cancer stratified according to microsatellite instability status.

Michael-Robinson JM, Biemer-Hüttmann A, Purdie DM, Walsh MD, Simms LA, Biden KG, Young JP, Leggett BA, Jass JR, Radford-Smith GL.

Gut. 2001 Mar;48(3):360-6.

5.

Elevated nuclear maspin expression is associated with microsatellite instability and high tumour grade in colorectal cancer.

Bettstetter M, Woenckhaus M, Wild PJ, Rümmele P, Blaszyk H, Hartmann A, Hofstädter F, Dietmaier W.

J Pathol. 2005 Apr;205(5):606-14.

PMID:
15714592
6.

Identification of CD8+CD25+Foxp3+ suppressive T cells in colorectal cancer tissue.

Chaput N, Louafi S, Bardier A, Charlotte F, Vaillant JC, Ménégaux F, Rosenzwajg M, Lemoine F, Klatzmann D, Taieb J.

Gut. 2009 Apr;58(4):520-9. doi: 10.1136/gut.2008.158824.

PMID:
19022917
7.

Colorectal cancers with microsatellite instability display mRNA expression signatures characteristic of increased immunogenicity.

Banerjea A, Ahmed S, Hands RE, Huang F, Han X, Shaw PM, Feakins R, Bustin SA, Dorudi S.

Mol Cancer. 2004 Aug 6;3:21.

8.

Different gene expression profiles between microsatellite instability-high and microsatellite stable colorectal carcinomas.

Kim H, Nam SW, Rhee H, Shan Li L, Ju Kang H, Hye Koh K, Kyu Kim N, Song J, Tak-Bun Liu E, Kim H.

Oncogene. 2004 Aug 19;23(37):6218-25.

PMID:
15208663
9.

Involvement of the leptin receptor in the immune response in intestinal cancer.

Aloulou N, Bastuji-Garin S, Le Gouvello S, Abolhassani M, Chaumette MT, Charachon A, Leroy K, Sobhani I.

Cancer Res. 2008 Nov 15;68(22):9413-22. doi: 10.1158/0008-5472.CAN-08-0909.

10.

Infiltration of forkhead box P3-expressing cells in small intestinal mucosa in coeliac disease but not in type 1 diabetes.

Tiittanen M, Westerholm-Ormio M, Verkasalo M, Savilahti E, Vaarala O.

Clin Exp Immunol. 2008 Jun;152(3):498-507. doi: 10.1111/j.1365-2249.2008.03662.x.

11.

The bone morphogenetic protein pathway is inactivated in the majority of sporadic colorectal cancers.

Kodach LL, Wiercinska E, de Miranda NF, Bleuming SA, Musler AR, Peppelenbosch MP, Dekker E, van den Brink GR, van Noesel CJ, Morreau H, Hommes DW, Ten Dijke P, Offerhaus GJ, Hardwick JC.

Gastroenterology. 2008 May;134(5):1332-41. doi: 10.1053/j.gastro.2008.02.059.

PMID:
18471510
12.

Characterization of tumour-infiltrating lymphocytes and apoptosis in colitis-associated neoplasia: comparison with sporadic colorectal cancer.

Michael-Robinson JM, Pandeya N, Walsh MD, Biemer-Huttmann AE, Eri RD, Buttenshaw RL, Lincoln D, Clouston AD, Jass JR, Radford-Smith GL.

J Pathol. 2006 Feb;208(3):381-7.

PMID:
16315333
13.

The "Fas counterattack" is not an active mode of tumor immune evasion in colorectal cancer with high-level microsatellite instability.

Houston AM, Michael-Robinson JM, Walsh MD, Cummings MC, Ryan AE, Lincoln D, Pandeya N, Jass JR, Radford-Smith GL, O'Connell J.

Hum Pathol. 2008 Feb;39(2):243-50.

PMID:
17961631
14.

Higher risk of mismatch repair-deficient colorectal cancer in alpha(1)-antitrypsin deficiency carriers and cigarette smokers.

Yang P, Cunningham JM, Halling KC, Lesnick TG, Burgart LJ, Wiegert EM, Christensen ER, Lindor NM, Katzmann JA, Thibodeau SN.

Mol Genet Metab. 2000 Dec;71(4):639-45.

PMID:
11136557
15.

MSI-H colorectal cancers preferentially retain and expand intraepithelial lymphocytes rather than peripherally derived CD8+ T cells.

Baker K, Foulkes WD, Jass JR.

Cancer Immunol Immunother. 2009 Jan;58(1):135-44. doi: 10.1007/s00262-008-0534-1.

PMID:
18488217
16.
17.

Reduced expression of cytokeratin 20 in colorectal carcinomas with high levels of microsatellite instability.

McGregor DK, Wu TT, Rashid A, Luthra R, Hamilton SR.

Am J Surg Pathol. 2004 Jun;28(6):712-8.

PMID:
15166663
18.

Association of JC virus T-antigen expression with the methylator phenotype in sporadic colorectal cancers.

Goel A, Li MS, Nagasaka T, Shin SK, Fuerst F, Ricciardiello L, Wasserman L, Boland CR.

Gastroenterology. 2006 Jun;130(7):1950-61.

PMID:
16762618
19.

Immune response against frameshift-induced neopeptides in HNPCC patients and healthy HNPCC mutation carriers.

Schwitalle Y, Kloor M, Eiermann S, Linnebacher M, Kienle P, Knaebel HP, Tariverdian M, Benner A, von Knebel Doeberitz M.

Gastroenterology. 2008 Apr;134(4):988-97. doi: 10.1053/j.gastro.2008.01.015.

PMID:
18395080
20.

Microsatellite instability and mismatch repair protein defects in ovarian epithelial neoplasms in patients 50 years of age and younger.

Jensen KC, Mariappan MR, Putcha GV, Husain A, Chun N, Ford JM, Schrijver I, Longacre TA.

Am J Surg Pathol. 2008 Jul;32(7):1029-37. doi: 10.1097/PAS.0b013e31816380c4.

PMID:
18469706
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