Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0155339 (
Brown
)
12,436
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Edpm5 is one member of a group of quantitative trait loci that are responsible for the difference in susceptibility to estrogen-induced prolactinoma between the Fischer 344 (F344) and
Brown
Norway (BN) strains. Upon chronic estrogen treatment F344 rats develop large, hemorrhagic and invasive pituitary tumors, which exhibit both
tumor angiogenesis
and neoplasia. In contrast, BN rats do not develop a tumor despite an estrogen-induced increase in lactotroph density. To investigate the role of Edpm5 in the development of these tumors, we have generated a novel congenic rat strain F344.BN-Edpm5BN by introgressing the segment of rat chromosome bearing Edpm5 from BN into the F344 strain background. Phenotypic differences between F344 and F344.BN-Edpm5BN must be due to a gene(s) within the chromosomal interval encompassing Edpm5. Through use of these strains, we find that Edpm5 specifically regulates the switch to angiogenic phenotype, independent of neoplasia. The F344.BN-Edpm5BN rats developed tumors, which exhibited significant growth, 7-fold greater mass than the pituitary of untreated rats, and neoplasia indistinguishable from that of the F344 strain. However, the F344.BN-Edpm5BN rat tumor had a non-angiogenic phenotype. After chronic estrogen treatment, there was no increase in microvessel count over untreated controls in F344.BN-Edpm5BN tumors, whereas F344 rat tumors showed a significant increase (P < 0.0005). The ultrastructural morphology of the pituitary blood vessels also did not show significant angiogenesis associated changes in F344.BN-Edpm5BN rat pituitary tumors. In contrast the parental strain F344 had pronounced angiogenic activity. The F344.BN-Edpm5BN strain also fails to express VEGF at the high levels seen in the F344 rat pituitary after estrogen treatment. Hence at least one gene that has a large impact, directly or indirectly, on the switch to angiogenic phenotype must reside within the chromosomal interval that is the Edpm5 quantitative trait locus.
...
PMID:The Edpm5 locus prevents the 'angiogenic switch' in an estrogen-induced rat pituitary tumor. 1516 88
We evaluated the significance of the host kallikrein-kinin system in
tumor angiogenesis
and tumor growth using two rodent models genetically deficient in a kallikrein-kinin system. Inoculation of Walker 256 carcinoma cells into the s.c. tissues of the back of normal
Brown
Norway Kitasato rats (BN-Ki rats) resulted in the rapid development of solid tumors with marked angiogenesis. By contrast, in kininogen-deficient
Brown
Norway Katholiek rats (BN-Ka rats), which cannot generate intrinsic bradykinin (BK), the weights of the tumors and the extent of angiogenesis were significantly less than those in BN-Ki rats. Daily administration of B(2) receptor antagonists significantly reduced angiogenesis and tumor weights in BN-Ki rats to levels similar to those in BN-Ka rats but did not do so in BN-Ka rats. Angiogenesis and tumor growth were significantly suppressed in B(2) receptor knockout mice bearing sarcoma 180 compared with their wild-type counterparts. Immunoreactive vascular endothelial growth factor (VEGF) was localized in Walker tumor stroma more extensively in BN-Ki rats than in BN-Ka rats, although immunoreactive B(2) receptor also was detected in the stroma to the same extent in both types of rats. Cultured stromal fibroblasts isolated from BN-Ki rats and BN-Ka rats produced VEGF in response to BK (10(-8)-10(-6) m), and this stimulatory effect of BK was abolished with a B(2) receptor antagonist, Hoe140 (10(-5) m). These results suggest that BK generated from kininogens supplied from the host may facilitate tumor-associated angiogenesis and tumor growth by stimulating stromal B(2) signaling to up-regulate VEGF production mainly in fibroblasts.
...
PMID:Host stromal bradykinin B2 receptor signaling facilitates tumor-associated angiogenesis and tumor growth. 1528 22
Small numbers of proangiogenic bone marrow-derived cells (BMDCs) can play pivotal roles in tumor progression. In this issue of Cancer Cell, two papers, utilizing different
tumor angiogenesis
models, both find that activated MMP-9 delivered by BMDCs modulates neovessel remodeling, thereby promoting tumor growth. The changes in microvascular anatomy induced by MMP-9-expressing BMDCs are strikingly different between the preirradiated tumor vascular bed model employed by Ahn and
Brown
and the invasive glioblastoma model utilized by Du et al., likely mirroring the complexity of the real tumor microenvironment and the intricacy of roles of different BMDC populations in mediating tumor neoangiogenesis.
...
PMID:A catalytic role for proangiogenic marrow-derived cells in tumor neovascularization. 1832 25
