The role of stromal-derived factor-1--CXCR7 axis in development and cancer. - Wikidata - wikimedia - TriplyDB

The role of stromal-derived factor-1--CXCR7 axis in development and cancer.

The role of stromal-derived factor-1--CXCR7 axis in development and cancer.

http://www.wikidata.org/entity/Q37616298

about

Opposing roles of CXCR4 and CXCR7 in breast cancer metastasis.Does it make sense to target one tumor cell chemotactic factor or its receptor when several chemotactic axes are involved in metastasis of the same cancer?Atypical Chemokine Receptors and Their Roles in the Resolution of the Inflammatory Response Glioblastoma Stem Cells Microenvironment: The Paracrine Roles of the Niche in Drug and Radioresistance The chemokine superfamily revisited CXC chemokines and chemokine receptors in gastric cancer: from basic findings towards therapeutic targeting Tumor stroma as targets for cancer therapy Optimization of plasma sample pretreatment for quantitative analysis using iTRAQ labeling and LC-MALDI-TOF/TOF Sprouting of nervous fibers and upregulation of C-X-C chemokine receptor type 4 expression in hippocampal formation of rats with enhanced spatial learning and memory CXCR7 protein expression in human adult brain and differentiated neurons CXCL12 enhances human neural progenitor cell survival through a CXCR7- and CXCR4-mediated endocytotic signaling pathway.Inhibition of CXCL12/CXCR4 axis as a potential targeted therapy of advanced gastric carcinoma Inhibition of androgen receptor promotes CXC-chemokine receptor 7-mediated prostate cancer cell survival.A novel mouse CD133 binding-peptide screened by phage display inhibits cancer cell motility in vitro.The chemokine receptor CXCR7 interacts with EGFR to promote breast cancer cell proliferation.Differential expression of SDF-1 isoforms in bladder cancer Targeting stem cell niches and trafficking for cardiovascular therapy SHH propagates distal limb bud development by enhancing CYP26B1-mediated retinoic acid clearance via AER-FGF signalling.ΔNP63α transcriptionally activates chemokine receptor 4 (CXCR4) expression to regulate breast cancer stem cell activity and chemotaxis The ins and outs of hematopoietic stem cells: studies to improve transplantation outcomes.Blocking SDF-1α/CXCR4 downregulates PDGF-B and inhibits bone marrow-derived pericyte differentiation and tumor vascular expansion in Ewing tumors.Chemokines, costimulatory molecules and fusion proteins for the immunotherapy of solid tumors.Cell, isoform, and environment factors shape gradients and modulate chemotaxis Hypoxia impedes vasculogenesis of in vitro engineered bone.Dermal fibroblast expression of stromal cell-derived factor-1 (SDF-1) promotes epidermal keratinocyte proliferation in normal and diseased skin.C-X-C motif receptor 7 in gastrointestinal cancer.Activation of two distinct Sox9-EGFP-expressing intestinal stem cell populations during crypt regeneration after irradiation.C-X-C chemokine receptor 7: a functionally associated molecular marker for bladder cancer.Mutation in cpsf6/CFIm68 (Cleavage and Polyadenylation Specificity Factor Subunit 6) causes short 3'UTRs and disturbs gene expression in developing embryos, as revealed by an analysis of primordial germ cell migration using the medaka mutant naruto.CXCL12/CXCR4 axis induces proliferation and invasion in human endometrial cancer.Melittin inhibits tumor angiogenesis modulated by endothelial progenitor cells associated with the SDF-1α/CXCR4 signaling pathway in a UMR-106 osteosarcoma xenograft mouse model.Silencing of CXCR2 and CXCR7 protects against esophageal cancer CXCR7 expression in esophageal cancer.CXCR7 is highly expressed in acute lymphoblastic leukemia and potentiates CXCR4 response to CXCL12.Chemokine and chemokine receptor expression in kidney tumors: molecular profiling of histological subtypes and association with metastasis.CXCR4 in epidermal keratinocytes: crosstalk within the skin.The bone marrow microenvironment and leukemia: biology and therapeutic targeting.Development of novel CXCR4-based therapeutics.CXCL12 in control of neuroinflammation.Imaging agents for the chemokine receptor 4 (CXCR4).

P2860

Q22000756-AF525066-2B11-4B62-841B-4AF83C3898B4 Q26741977-60759D39-2F7C-471B-A123-60016FF10ACB Q26744960-446F14E1-4F5A-44BB-AD72-D087DBD3D2B1 Q26765869-7F2F4EC5-E598-40C4-A3E6-73BAB3DDD5FE Q26824492-313E7DBF-6EDF-4858-B108-F2AB32397C61 Q26849606-88891E9F-3C95-4AFA-826B-B696FD67B4AE Q27015980-674ABB9E-3C64-49D0-8B8A-A48D4E0B6005 Q28540277-8F0F414C-0E88-4869-BE59-2F4C2048393A Q28574802-FD89B609-927F-4803-87D5-47E7D5F575D1 Q28744119-C25B9DDC-0D23-454F-BBF9-7378B56413FA Q30574876-338EA510-7CB7-46E3-92DC-5D36AC3CD4EB Q33775283-2C430787-7445-4E5A-8EF7-E5B6FEED2D14 Q33780482-8A16C2E2-C018-4094-B13D-D7382BF6F900 Q34121606-2DC57EB4-C019-4B7D-88EF-431A3A5643D6 Q34203682-0912EEA4-9AE4-4FFA-88F9-2A761BAE2946 Q34342390-D5FA7591-FD54-4079-9AB4-BA12BF01E346 Q34475689-6D212641-58BE-424D-99AE-D83936B69359 Q34855838-2DF89F01-77CC-4791-8D63-D67FEEAA23BA Q34978368-C343F3CA-25CF-4E52-B3A7-E98807044D72 Q35041174-8230C9ED-F65D-446B-AA08-180F64B557DC Q35054920-720A02E4-AFE6-4AC6-AE92-D42E1548B770 Q35580479-1F3D6762-BF1F-4A9B-917D-508116744CF3 Q35613631-3E44276B-FEDE-4195-B907-CACCEB37BC11 Q35635193-4E46C4C0-94C7-4F7C-8AD1-10E28989FCC6 Q35752620-AC16EAEC-B6D9-477A-A2B2-17FF3BAE4B7C Q35856680-49339B1D-CF35-499B-A506-E94DBC2C6988 Q35994058-0131DE3E-FEE6-4DCF-97F4-8E3C02AB9F49 Q36287809-A4020DB4-2399-491F-8A6A-19D4C4C45AFD Q36295570-B2511D66-91B7-40D8-884C-EF3EE61C43D7 Q36879569-C7FEAD2D-24F8-4257-B8A7-D7D0F062FD6B Q37032307-AC63055C-1E5E-48B8-918F-530DE8C40DFB Q37227971-54FCAF72-88DA-49AE-9097-FB9D41805F19 Q37364416-A659DF02-C1AB-4D52-B659-3738E6258A08 Q37538138-674F1B49-344E-4CC6-89CA-09CF66407DAB Q37573641-F251A6B7-A174-4190-8452-0A4E4A60D54A Q37663971-1958C842-5AC4-47E7-BDAA-B5AC6899BD9E Q37888712-20472815-A2D3-499A-B29E-AD69C55F635D Q37979306-8E69B1F1-2BE8-4C9D-98E1-6045004C7DB1 Q37990784-9E94D850-6557-4C2B-AC7F-E504E2492FA8 Q38022430-84CFE437-CF6E-47D1-9D18-3B4BA885875E

P2860

The role of stromal-derived factor-1--CXCR7 axis in development and cancer.

http://www.wikidata.org/entity/Q37616298

description

2009 nî lūn-bûn

@nan

2009年の論文

@ja

2009年学术文章

@wuu

2009年学术文章

@zh

2009年学术文章

@zh-cn

2009年学术文章

@zh-hans

2009年学术文章

@zh-my

2009年学术文章

@zh-sg

2009年學術文章

@yue

2009年學術文章

@zh-hant

name

The role of stromal-derived factor-1--CXCR7 axis in development and cancer.

@en

The role of stromal-derived factor-1--CXCR7 axis in development and cancer.

@nl

type

label

The role of stromal-derived factor-1--CXCR7 axis in development and cancer.

@en

The role of stromal-derived factor-1--CXCR7 axis in development and cancer.

@nl

prefLabel

The role of stromal-derived factor-1--CXCR7 axis in development and cancer.

@en

The role of stromal-derived factor-1--CXCR7 axis in development and cancer.

@nl

P1433

Q37616298-FCF4E866-7426-4230-809D-C121CD09F7FC

P1476

Q37616298-69E0DC57-60B5-4BB3-88D5-7A6B15166D02

P2093

Q37616298-086F50DC-F6BD-4AE9-8353-80399C9BA4B1

Q37616298-14BBD0F6-A3F6-47D8-8F68-5C7C8B08381B

Q37616298-2A5CD5F4-7949-44F3-8578-138ED182ECD8

Q37616298-483D58B9-0489-44E8-88CE-A6B587332406

Q37616298-9DAD049F-40E3-4D02-A9E2-020EA3EF92C8

Q37616298-9E6D94CC-A381-4B14-BA15-DDECED4441BA

Q37616298-B36D9710-ADC8-4F59-A773-5E18BC829E39

Q37616298-E91C7A4F-8C13-4AE2-A5DE-06E9462C07EE

Q37616298-EFB3D78B-7E18-4173-8EDF-BFE852C7629C

P2860

Q37616298-00491A37-EBD1-409F-8872-86CAD5F16960

Q37616298-0441A38F-ADC7-4D1D-B5A0-B85DCFBC88BA

Q37616298-04E88BBE-5683-4513-88F1-063E1A218087

Q37616298-0691712F-665E-43D8-A4DB-2F9DB9E82C77

Q37616298-0B40816B-3043-4D09-9CA8-D279386D91AC

Q37616298-0C373C71-97A9-4BEA-A1DE-8B2B502B7A83

Q37616298-23AA647D-D361-4095-833E-A6DFEE8DB840

Q37616298-28217043-3C55-4B8A-9CCB-CB00A74AF1A5

Q37616298-2AD2EE4D-FBCB-4288-91F9-343092486339

Q37616298-2BDCBEAC-1753-431C-889F-02271B82366D

P304

Q37616298-D88B8CB3-2F4D-4976-BDBA-D81FB60EE78A

P31

Q37616298-F5D8D578-24F1-4903-8C99-2B5AC06C4EC5

P356

Q37616298-ACCCCE88-D0CB-4D55-82F0-D0ED9BA9CF4B

P407

Q37616298-F76F01EF-7BF1-45E6-861C-E80882B1379B

P433

Q37616298-CF6B89AF-D552-427A-A5EE-BCCC754B0828

P478

Q37616298-C5DD7D73-755A-4D7A-87CB-038A49229AFF

P50

Q37616298-43FAC7DD-37E8-4ADE-B5CB-FAADA0FF6D30

P577

Q37616298-8EB66655-9D06-4AFE-B193-F2D065E00766

P5875

Q37616298-D24A5CEB-59F5-4ED1-8A1A-C28A09E080A6

P698

Q37616298-9A76600A-EF36-4628-B72E-46D769E67926

P932

Q37616298-F34662FF-1682-4402-B768-859B3F6271BF

P356

J.EJPHAR.2009.04.071

P1433

European Journal of Pharmacology

P1476

The role of stromal-derived factor-1--CXCR7 axis in development and cancer.

@en

P2093

Boguslaw Czerny

http://www.w3.org/2001/XMLSchema#string

Janina Ratajczak

http://www.w3.org/2001/XMLSchema#string

Joanna Tarnowska

http://www.w3.org/2001/XMLSchema#string

Katarzyna Grymula

http://www.w3.org/2001/XMLSchema#string

Maciej Tarnowski

http://www.w3.org/2001/XMLSchema#string

Magda Kucia

http://www.w3.org/2001/XMLSchema#string

Marcin Wysoczynski

http://www.w3.org/2001/XMLSchema#string

Radoslaw B Maksym

http://www.w3.org/2001/XMLSchema#string

Riu Liu

http://www.w3.org/2001/XMLSchema#string

P2860

Trafficking of the HIV coreceptor CXCR4. Role of arrestins and identification of residues in the c-terminal tail that mediate receptor internalization

HIV-1 Entry Cofactor: Functional cDNA Cloning of a Seven-Transmembrane, G Protein-Coupled Receptor

Involvement of chemokine receptors in breast cancer metastasis

A putative G protein-coupled receptor, RDC1, is a novel coreceptor for human and simian immunodeficiency viruses

Interferon-inducible T cell alpha chemoattractant (I-TAC): a novel non-ELR CXC chemokine with potent activity on activated T cells through selective high affinity binding to CXCR3

A novel chemokine receptor for SDF-1 and I-TAC involved in cell survival, cell adhesion, and tumor development

CXCR7 (RDC1) promotes breast and lung tumor growth in vivo and is expressed on tumor-associated vasculature

Fusion of RDC1 with HMGA2 in lipomas as the result of chromosome aberrations involving 2q35-37 and 12q13-15

The chemokine SDF1 regulates migration of dentate granule cells

The chemokine receptor CCX-CKR mediates effective scavenging of CCL19 in vitro

P304

31-40

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1016/J.EJPHAR.2009.04.071

http://www.w3.org/2001/XMLSchema#string

P407

P433

1-3

http://www.w3.org/2001/XMLSchema#string

P478

625

http://www.w3.org/2001/XMLSchema#string

P50

Mariusz Ratajczak

P577

2009-10-14T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

38017060

http://www.w3.org/2001/XMLSchema#string

P698

19835865

http://www.w3.org/2001/XMLSchema#string

P932

2783873

http://www.w3.org/2001/XMLSchema#string