Bibliography
- Ayala G , TuxhornJA, WheelerTMet al.: Reactive stroma as a predictor of biochemical-free recurrence in prostate cancer.Clin. Cancer Res.9, 4792–4801 (2003).
- Yanagisawa N , LiR, RowleyDet al.: Stromogenic prostate carcinoma pattern (carcinomas with reactive stromal grade 3) in needle biopsies predicts biochemical recurrence-free survival in patients after radical prostatectomy.Human Pathol.38, 1611–1620 (2007).
- Orimo A , WeinbergRA: Stromal fibroblasts in cancer.Cell Cycle5, 1597–1601 (2006).
- Ostman A , AugstenM: Cancer-associated fibroblasts and tumor growth – bystanders turning into key players.Curr. Opin. Genet. Dev.19, 67–73 (2009).
- McAllister SS , GiffordAM, GreinerALet al.: Systemic endocrine instigation of indolent tumor growth requires osteopontin.Cell133, 994–1005 (2008).
- Kallui R , ZeisbergM: Fibroblasts in cancer.Nat. Rev. Cancer6, 392–401 (2006).
- Joyce J , PollardJW: Microenvironmental regulation of metastasis.Nat. Rev. Cancer9, 239–252 (2009).
- Dvorak HF : Tumors: wounds that do not heal. Similarities between tumor stroma generation and wound healing.N. Engl. J. Med.315, 1650–1659 (1986).
- Finak G , BertosN, PepinFet al.: Stromal gene expression predicts clinical outcome in breast cancer.Nat. Med.14, 518–527 (2008).
- Farmer P , BonnefoiH, AderlePet al.: A stroma-related gene signature predicts resistance to neoadjuvant chemotherapy in breast cancer.Nat. Med.15, 68–74 (2009).
- Richardson AM , WoodsonK, WangYet al.: Global expression analysis of prostate cancer-associated stroma and epithelia.Diag. Mol. Pathol.16, 189–197 (2007).
- Bacac M , ProveroP, MayranN, StehleJ-C, FuscoC, StamenkovicI: A mouse stromal response to tumor invasion predicts prostate and breast cancer patient survival.PLOS One1, 1–10 (2006).
- Cunha GR , CookePS, KuritaT: Role of stromal epithelial interactions in hormonal responses.Arch. Histol. Cytol.417–434 (2004).
- Lissbrant IF , LissbrantE, DamberJE, BerghA: Blood vessels are regulators of growth, diagnostic markers and therapeutic targets in prostate cancer.Scand. J. Urol. Nephrol.35, 437–452 (2001).
- Johansson A , JonesJ, PietrasKet al.: A stroma targeted therapy enhances castration effects in a transplantable rat prostate cancer model.Prostate67, 1664–1676 (2007).
- Cunha GR , HaywardSW, WangYZ, RickeWA: Role of the stromal microenvironment in carcinogenesis of the prostate.Int. J. Cancer107, 1–10 (2003).
- Niu Y-N , XiaS-J: Stroma-epithelium crosstalk in prostate cancer. Asian J. Androl.11, 28–35 (2009).
- Bhowmick NA , ChytilA, PliethDet al.: TGF-β signaling in fibroblasts modulates the oncogenic potential of adjacent epithelia.Science303, 848–851 (2004).
- Sung SY , HsiehCL, LawAet al.: Coevolution of prostate cancer and bone stroma in three-dimensional coculture: implications for prostate cancer growth and metastasis.Cancer Res.68, 9996–10,003 (2008).
- Hill R , SongY, CardiffRD, van DykeT: Selective evolution of stromal mesenchyma with p53 loss in response to epithelial tumorigenesis.Cell123, 1001–1011 (2005).
- Chung LWK , BasemanA, AssikisV, ZhauHE: Molecular insights into prostate cancer progression: the missing link of tumor microenvironment.J. Urol.173, 10–20 (2005).
- Wikström P , MarusicJ, StattinP, BerghA: Low stroma androgen receptor level in normal and tumor prostate tissue is related to poor outcome in prostate cancer patients.Prostate69, 799–809 (2009).
- Ohlson N , BerghA, StattinP, WikströmP: Castration-induced epithelial cell death in human prostate tissue is related to locally reduced IGF-1 levels.Prostate67, 32–40 (2007).
- Lissbrant IF , StattinP, WikstromP, DamberJE, EgevadL, BerghA: Tumor associated macrophages in human prostate cancer: relation to clinicopathological variables and survivalInt. J. Oncol.17, 445–451 (2000).
- Kärjä V , AaltomaaS, LipponenP, IsotaloT, TaljaM, MokkaR: Tumour-infiltrating lymphocytes: a prognostic factor of PSA-free survival in patients with local prostate carcinoma treated by radical prostatectomy.Anticancer Res.25, 4435–4438 (2005).
- Fleischmann A , SchlommT, KöllermannJet al.: Immunological microenvironment in prostate cancer: high mast cell densities are associated with favorable tumor characteristics and good prognosis.Prostate69, 976–981 (2009).
- Tammi RH , KulttiA, KosmaVM, PirinenR, AuvinenP, TammiMI: Hyaluronan in human tumors: pathobiological and prognostic messages from cell-associated and stromal hyaluronan.Semin. Cancer Biol.18, 288–295 (2008).
- McVary KT , McKennaKE, LeeC: Prostate innervation.Prostate Suppl.8, 2–13 (1998).
- Liebig C , AyalaG, WilksJA, BergerDH, AlboD: Perineural invasion in cancer: a review of the literature.Cancer115, 3379–3391 (2009).
- Barker AR , RossonGD, DellonAL: Wound healing in denervated tissue.Ann. Plast. Surg.57, 339–342 (2006).
- Entschladen F , PalmD, NiggemannB, ZaenkerKS: The cancer’s nervous tooth: considering the neuronal crosstalk within tumors.Semin. Cancer Biol.18, 171–175 (2008).
- Zhao H , RamosCF, BrooksJD, PeehlDM: Distinctive gene expression of prostatic stromal cells cultured from diseased versus normal tissues.J. Cell Physiol.210, 111–121 (2007).
- Zhao F-J , HanB-M, YuS-Q, XiaS-J: Tumor formation of prostate cancer cells influenced by stromal cells from transitional or peripheral zones of the normal prostate. Asian J. Androl.11, 176–182 (2009).
- Dean JP , NelsonPS: Profiling influences of senescent and aged fibroblasts on prostate carcinogenesis.Brit. J. Cancer98, 245–249 (2008).
- Nonn L , AnanthanarayananV, GannPH: Evidence for field cancerization of the prostate.Prostate69(13), 1470–1479 (2009).
- Halin S , HammarstenP, WikströmP, BerghA: Androgen-insensitive prostate cancer cells respond to castration treatment when growing in an androgen-dependent prostate environment.Prostate67, 370–377 (2007).
- Morrissey C , VessellaRL: The role of tumor microenvironment in prostate cancer bone metastasis.J. Cell Biochem.101, 873–886 (2007).