| scholarly article | Q13442814 |
| P2093 | author name string | Susanne M Henning | |
| Jaydutt V Vadgama | |||
| Clara E Magyar | |||
| Piwen Wang | |||
| Tanya Diaz | |||
| Walter Solorzano | |||
| P2860 | cites work | The endothelial-specific microRNA miR-126 governs vascular integrity and angiogenesis | Q24656947 |
| A novel function for tissue inhibitor of metalloproteinases-3 (TIMP3): inhibition of angiogenesis by blockage of VEGF binding to VEGF receptor-2 | Q28185858 | ||
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| GPC1 regulated by miR-96-5p, rather than miR-182-5p, in inhibition of pancreatic carcinoma cell proliferation | Q33580656 | ||
| Plasma insulin-like growth factor-I and prostate cancer risk: a prospective study | Q34065827 | ||
| Increased chemopreventive effect by combining arctigenin, green tea polyphenol and curcumin in prostate and breast cancer cells | Q34199506 | ||
| Prostate cancer: to screen or not to screen? | Q34571878 | ||
| Pomegranate ellagitannin-derived metabolites inhibit prostate cancer growth and localize to the mouse prostate gland | Q34667773 | ||
| miR-205 Exerts tumor-suppressive functions in human prostate through down-regulation of protein kinase Cepsilon. | Q34952175 | ||
| Changes in microRNA expression levels correlate with clinicopathological features and prognoses in endometrial serous adenocarcinomas. | Q35011389 | ||
| Arctigenin in combination with quercetin synergistically enhances the antiproliferative effect in prostate cancer cells | Q35039872 | ||
| MicroRNA-135a acts as a putative tumor suppressor by directly targeting very low density lipoprotein receptor in human gallbladder cancer | Q35051638 | ||
| Chemopreventive effects of tea in prostate cancer: green tea versus black tea. | Q35185534 | ||
| Galectin-4 in normal tissues and cancer | Q35759428 | ||
| The Angiogenic Effect of microRNA-21 Targeting TIMP3 through the Regulation of MMP2 and MMP9 | Q35922369 | ||
| Quercetin increased the antiproliferative activity of green tea polyphenol (-)-epigallocatechin gallate in prostate cancer cells | Q35997548 | ||
| Polyphenols: key issues involved in chemoprevention of prostate cancer | Q36012126 | ||
| Polyphenols in brewed green tea inhibit prostate tumor xenograft growth by localizing to the tumor and decreasing oxidative stress and angiogenesis | Q36030914 | ||
| Quercetin increased bioavailability and decreased methylation of green tea polyphenols in vitro and in vivo | Q36664265 | ||
| The prevention of prostate cancer. | Q36790924 | ||
| The role of tissue factor pathway inhibitor-2 in cancer biology | Q37000486 | ||
| AR, the cell cycle, and prostate cancer | Q37095260 | ||
| Protein phosphatase 2A isoforms utilizing Aβ scaffolds regulate differentiation through control of Akt protein | Q37272228 | ||
| Enhanced inhibition of prostate cancer xenograft tumor growth by combining quercetin and green tea. | Q37382070 | ||
| Green tea and cancer prevention | Q37798221 | ||
| The cellular functions of RASSF1A and its inactivation in prostate cancer | Q37996013 | ||
| Recent developments in delivery, bioavailability, absorption and metabolism of curcumin: the golden pigment from golden spice | Q38187406 | ||
| Arctigenin enhances chemosensitivity to cisplatin in human nonsmall lung cancer H460 cells through downregulation of survivin expression | Q39036970 | ||
| Arctigenin, a dietary phytoestrogen, induces apoptosis of estrogen receptor-negative breast cancer cells through the ROS/p38 MAPK pathway and epigenetic regulation. | Q39076620 | ||
| DLC1 induces expression of E-cadherin in prostate cancer cells through Rho pathway and suppresses invasion | Q39200334 | ||
| MicroRNA-22 is induced by vitamin D and contributes to its antiproliferative, antimigratory and gene regulatory effects in colon cancer cells. | Q39397632 | ||
| CaM kinase control of AKT and LNCaP cell survival | Q39427492 | ||
| ZNF185, an actin-cytoskeleton-associated growth inhibitory LIM protein in prostate cancer | Q40262864 | ||
| Identification of arctigenin as an antitumor agent having the ability to eliminate the tolerance of cancer cells to nutrient starvation | Q40321951 | ||
| Oral consumption of green tea polyphenols inhibits insulin-like growth factor-I-induced signaling in an autochthonous mouse model of prostate cancer. | Q50784946 | ||
| Arctigenin Protects against Lipopolysaccharide-Induced Pulmonary Oxidative Stress and Inflammation in a Mouse Model via Suppression of MAPK, HO-1, and iNOS Signaling. | Q52973089 | ||
| MicroRNA and cancer. | Q53137197 | ||
| Timp3 loss accelerates tumour invasion and increases prostate inflammation in a mouse model of prostate cancer. | Q53359242 | ||
| Arctigenin but not arctiin acts as the major effective constituent of Arctium lappa L. fruit for attenuating colonic inflammatory response induced by dextran sulfate sodium in mice. | Q54317531 | ||
| Life expectancy estimates as a key factor in over-treatment: The case of prostate cancer | Q57566932 | ||
| Plasma pharmacokinetics and tissue distribution of arctiin and its main metabolite in rats by HPLC-UV and LC-MS | Q83880069 | ||
| Epigenetic silencing of SOCS3 identifies a subset of prostate cancer with an aggressive behavior | Q84757956 | ||
| P921 | main subject | cell growth | Q189159 |
| prostate neoplasm | Q56014511 | ||
| P304 | page(s) | 1-11 | |
| P577 | publication date | 2017-04-08 | |
| P1433 | published in | Clinical Nutrition Experimental | Q50817108 |
| P1476 | title | Arctigenin inhibits prostate tumor cell growth in vitro and in vivo. | |
| P478 | volume | 13 |
| Q58751267 | 7-Isopenthenyloxycoumarin, Arctigenin, and Hesperidin Modify Myeloid Cell Leukemia Type-1 (Mcl-1) Gene Expression by Hormesis in K562 Cell Line |
| Q89741975 | Arctigenin induces necroptosis through mitochondrial dysfunction with CCN1 upregulation in prostate cancer cells under lactic acidosis |
| Q93039584 | Arctigenin inhibits prostate tumor growth in high-fat diet fed mice through dual actions on adipose tissue and tumor |
| Q49831189 | Experimental study of the anti-tumour activity and pharmacokinetics of arctigenin and its valine ester derivative |
| Q92668881 | Kangquan Recipe Regulates the Expression of BAMBI Protein via the TGF-β/Smad Signaling Pathway to Inhibit Benign Prostatic Hyperplasia in Rats |
| Q64922991 | MicroRNA-Mediated Health-Promoting Effects of Phytochemicals. |
| Q64103615 | Phytochemicals Targeting VEGF and VEGF-Related Multifactors as Anticancer Therapy |
| Q92277219 | TIMP-3 as a therapeutic target for cancer |
| Q89175816 | What Has Come out from Phytomedicines and Herbal Edibles for the Treatment of Cancer? |
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