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Cell adhesion and cytoskele...

Cell adhesion and cytoskeletal molecules in metastasis

Cress, Anne E.

Nagle, Raymond B.

Springer 2006

In this volume, the expression of specific adhesion molecules within human cancer tissues are highlighted. The expression signatures from published DNA microarray and immunohistochemistry studies are detailed. The concept that the alteration of specific adhesion molecules influence the cancer migration ability and cancer damage responses is detailed in this volume; both features are essential for the survival of an invading tumor cell. Defining the minimal adhesion receptors preserved on cancer cells during tumor progression will define the metastatic adhesion signature. Understanding the metastatic adhesion signature will reveal vulnerabilities that could be exploited for the prevention and/or eradication of the invading cancer cell

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monografia Rebiun35004052 https://catalogo.rebiun.org/rebiun/record/Rebiun35004052 m o d cr cn||||||||| 080226s2006 ne a ob 001 0 eng d GBA6A1304 bnb 86080778 228162020 228162021 228376894 320964099 436368322 437193829 613455594 648128932 698452833 756423184 880094933 994747427 1005763355 1019998130 1035664237 1044116100 1044253759 1056310208 1056326838 1067028945 1078139138 1087336896 1097295513 1097348723 1105597126 1110764811 1110839925 1112594519 1125448249 1204062676 1391789630 9781402051296 1402051298 9781402051289 hb ; alk. paper) 140205128X hb ; alk. paper) 6610745056 9786610745050 10.1007/978-1-4020-5129-6. doi AU@ 000048699515 DEBSZ 442810377 NZ1 12056775 978-1-4020-5128-9 Springer http://www.springerlink.com GW5XE eng pn GW5XE ITD OCLCQ YNG N$T YDXCP CEF UAB CNTRU E7B MNU IDEBK OCLCO OCLCQ A7U OCLCQ OCLCF BEDGE OCLCA SLY NUI OCLCQ MERUC OCLCQ DEBSZ EBLCP OCLCQ Z5A OTZ OCLCO OCLCQ OCLCO ESU OCLCQ VT2 OCLCO OCLCA STF OCLCQ MUO U3W OCLCQ WYU UWO CANPU YOU OCLCQ MERER NZHMA OCLCO W2U OCLCO UX1 UKAHL OCLCQ AUD EQF DCT ZHM OCLCQ ERF UKBTH WURST OCLCQ OCLCA SRU NLE EUN SFB EUX OCLCQ TUS COM LUU OCLCQ OCLCO SHC OCLCQ INARC OCLCO OCLCL (Q (3 MED 110000 bisacsh MN. bicssc 617.99407 22 R730. 23 clc Cell adhesion and cytoskeletal molecules in metastasis edited by Anne E. Cress and Raymond B. Nagle Dordrecht, the Netherlands Springer 2006 Dordrecht, the Netherlands Dordrecht, the Netherlands Springer 1 online resource (xii, 198 pages) illustrations 1 online resource (xii, 198 pages) Text txt rdacontent computer c rdamedia online resource cr rdacarrier PDF text file Cancer metastasis - biology and treatment v. 9 Includes bibliographical references and index CHANGING EXTRACELLULAR MATRIX LIGANDS DURING METASTASIS -- SUPPRESSION AND ALTERATION OF ADHESION STRUCTURES IN HUMAN EPITHELIAL CANCER PROGRESSION -- REGULATION OF CADHERINS DURING PROSTATE CANCER PROGRESSION -- THE ACTIN CYTOSKELETON AND METASTASIS -- CHARACTERIZATION OF THE FERM DOMAIN PROTEIN EHM2 IN HUMAN CANCER CELLS -- CYTOKERATIN 6 EXPRESSION IN PROSTATE STEM CELLS -- EPIGENETIC REGULATION OF GENES THAT AFFECT TUMOR CELL ADHESION -- CELL ADHESION-MEDIATED RADIATION RESISTANCE: THE ROLE OF INTEGRINS AND INTEGRIN PROXIMAL PROTEIN -- CAM-DR: HANGING ON FOR CELL SURVIVAL -- EPITHELIAL CELL SURFACE TARGETING USING SYNTHETIC D-AMINO ACID PEPTIDES University staff and students only. Requires University Computer Account login off-campus In this volume, the expression of specific adhesion molecules within human cancer tissues are highlighted. The expression signatures from published DNA microarray and immunohistochemistry studies are detailed. The concept that the alteration of specific adhesion molecules influence the cancer migration ability and cancer damage responses is detailed in this volume; both features are essential for the survival of an invading tumor cell. Defining the minimal adhesion receptors preserved on cancer cells during tumor progression will define the metastatic adhesion signature. Understanding the metastatic adhesion signature will reveal vulnerabilities that could be exploited for the prevention and/or eradication of the invading cancer cell Metástasis Cell adhesion molecules Cytoskeleton Surgery Pathology Cell Adhesion Molecules Cytoskeleton Neoplasm Metastasis General Surgery Pathology Pathology Oncology Molecular Medicine Dermatology Cancer Research Biomedicine Métastases Molécules d'adhésion cellulaire Cytosquelette Chirurgie Pathologie surgery (health care function) medicines (material) pathology. MEDICAL- Histology. Neoplasm Metastasis. Cell Adhesion Molecules. Metástasis Cytoskeleton. Biomédecine. Sciences de la vie. Cell adhesion molecules. Cytoskeleton. Metástasis neoplasms dermatologie dermatology geneeskunde medicine pathologie pathology biomedische wetenschappen biomedicine oncologie oncology Medicine (General) Geneeskunde (algemeen) Cress, Anne E. Nagle, Raymond B. Springer e-books Springer e-books Print version Cell adhesion and cytoskeletal molecules in metastasis. Dordrecht, the Netherlands : Springer, 2006 9781402051289 140205128X (DLC) 2007462590 (OCoLC)77011826 Cancer metastasis (Series) 9

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monografia Rebiun35004052 https://catalogo.rebiun.org/rebiun/record/Rebiun35004052 m o d cr cn||||||||| 080226s2006 ne a ob 001 0 eng d GBA6A1304 bnb 86080778 228162020 228162021 228376894 320964099 436368322 437193829 613455594 648128932 698452833 756423184 880094933 994747427 1005763355 1019998130 1035664237 1044116100 1044253759 1056310208 1056326838 1067028945 1078139138 1087336896 1097295513 1097348723 1105597126 1110764811 1110839925 1112594519 1125448249 1204062676 1391789630 9781402051296 1402051298 9781402051289 hb ; alk. paper) 140205128X hb ; alk. paper) 6610745056 9786610745050 10.1007/978-1-4020-5129-6. doi AU@ 000048699515 DEBSZ 442810377 NZ1 12056775 978-1-4020-5128-9 Springer http://www.springerlink.com GW5XE eng pn GW5XE ITD OCLCQ YNG N$T YDXCP CEF UAB CNTRU E7B MNU IDEBK OCLCO OCLCQ A7U OCLCQ OCLCF BEDGE OCLCA SLY NUI OCLCQ MERUC OCLCQ DEBSZ EBLCP OCLCQ Z5A OTZ OCLCO OCLCQ OCLCO ESU OCLCQ VT2 OCLCO OCLCA STF OCLCQ MUO U3W OCLCQ WYU UWO CANPU YOU OCLCQ MERER NZHMA OCLCO W2U OCLCO UX1 UKAHL OCLCQ AUD EQF DCT ZHM OCLCQ ERF UKBTH WURST OCLCQ OCLCA SRU NLE EUN SFB EUX OCLCQ TUS COM LUU OCLCQ OCLCO SHC OCLCQ INARC OCLCO OCLCL (Q (3 MED 110000 bisacsh MN. bicssc 617.99407 22 R730. 23 clc Cell adhesion and cytoskeletal molecules in metastasis edited by Anne E. Cress and Raymond B. Nagle Dordrecht, the Netherlands Springer 2006 Dordrecht, the Netherlands Dordrecht, the Netherlands Springer 1 online resource (xii, 198 pages) illustrations 1 online resource (xii, 198 pages) Text txt rdacontent computer c rdamedia online resource cr rdacarrier PDF text file Cancer metastasis - biology and treatment v. 9 Includes bibliographical references and index CHANGING EXTRACELLULAR MATRIX LIGANDS DURING METASTASIS -- SUPPRESSION AND ALTERATION OF ADHESION STRUCTURES IN HUMAN EPITHELIAL CANCER PROGRESSION -- REGULATION OF CADHERINS DURING PROSTATE CANCER PROGRESSION -- THE ACTIN CYTOSKELETON AND METASTASIS -- CHARACTERIZATION OF THE FERM DOMAIN PROTEIN EHM2 IN HUMAN CANCER CELLS -- CYTOKERATIN 6 EXPRESSION IN PROSTATE STEM CELLS -- EPIGENETIC REGULATION OF GENES THAT AFFECT TUMOR CELL ADHESION -- CELL ADHESION-MEDIATED RADIATION RESISTANCE: THE ROLE OF INTEGRINS AND INTEGRIN PROXIMAL PROTEIN -- CAM-DR: HANGING ON FOR CELL SURVIVAL -- EPITHELIAL CELL SURFACE TARGETING USING SYNTHETIC D-AMINO ACID PEPTIDES University staff and students only. Requires University Computer Account login off-campus In this volume, the expression of specific adhesion molecules within human cancer tissues are highlighted. The expression signatures from published DNA microarray and immunohistochemistry studies are detailed. The concept that the alteration of specific adhesion molecules influence the cancer migration ability and cancer damage responses is detailed in this volume; both features are essential for the survival of an invading tumor cell. Defining the minimal adhesion receptors preserved on cancer cells during tumor progression will define the metastatic adhesion signature. Understanding the metastatic adhesion signature will reveal vulnerabilities that could be exploited for the prevention and/or eradication of the invading cancer cell Metástasis Cell adhesion molecules Cytoskeleton Surgery Pathology Cell Adhesion Molecules Cytoskeleton Neoplasm Metastasis General Surgery Pathology Pathology Oncology Molecular Medicine Dermatology Cancer Research Biomedicine Métastases Molécules d'adhésion cellulaire Cytosquelette Chirurgie Pathologie surgery (health care function) medicines (material) pathology. MEDICAL- Histology. Neoplasm Metastasis. Cell Adhesion Molecules. Metástasis Cytoskeleton. Biomédecine. Sciences de la vie. Cell adhesion molecules. Cytoskeleton. Metástasis neoplasms dermatologie dermatology geneeskunde medicine pathologie pathology biomedische wetenschappen biomedicine oncologie oncology Medicine (General) Geneeskunde (algemeen) Cress, Anne E. Nagle, Raymond B. Springer e-books Springer e-books Print version Cell adhesion and cytoskeletal molecules in metastasis. Dordrecht, the Netherlands : Springer, 2006 9781402051289 140205128X (DLC) 2007462590 (OCoLC)77011826 Cancer metastasis (Series) 9