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Abstract HIF-1 is associated with poor patient prognosis and therapeutic resistance of cancer. We have developed a novel hypoxia-inducible factor (HIF)-1 inhibitor, IDF-11774, as a clinical candidate for cancer therapy. Under hypoxic condition, IDF-11774 inhibited the accumulation of HIF-1α in vitro and in vivo in colorectal carcinoma HCT116 cells. IDF-11774 suppressed the angiogenesis of cancer cells by reducing the expression of HIF-1 target genes. Moreover, IDF-11774 reduced glucose uptake, leading sensitizing cell growth on low glucose condition. IDF-11774 also decreased the extracellular acidification rate (ECAR) and oxygen consumption rate (OCR). Metabolic profile of IDF-11774-treated cells revealed low levels of NAD+, lactate, and intermediates in glycolysis and tricarboxylic acid (TCA) cycle. More importantly, we observed elevated AMP and diminished ATP level, leading high AMP/ATP ratio. Apparently, phosphorylation of AMPK increased, leading inhibition of mTOR signaling in cells. In vivo xenograft assays demonstrated that IDF11774 has significant anti-cancer efficacy by targeting cancer metabolism in mouse models containing the KRAS, PTEN or VHL mutation, which often occurs in many malignant cancers. Collectively, IDF-11774 suppresses the hypoxia-induced HIF-1α accumulation, thereby repressing tumor growth by regulating cancer metabolism. Citation Format: Misun Won, Hyun Seung Ban, Kyeong Lee, Hongsub Lee, Bo-Kyung Kim, Hwan Mook Kim, Ravi Naik, Song-Kyu Park, Joon-Tae Park, Inhyub Kim, Miso Nam, Geum-Sook Hwang. A novel hypoxia-inducible factor-1 inhibitor IDF-11774 regulates cancer metabolism, thereby suppressing tumor growth [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 1164. doi:10.1158/1538-7445.AM2017-1164
In the mouse macrophage‐like cell line RAW 264, vacuolar‐type (H + )‐ATPase (V‐ATPase) inhibitors, bafilomycin A 1 and concanamycin A, increased the level of cyclooxygenase (COX)‐2 protein and its mRNA. The V‐ATPase inhibitor‐induced expression of COX‐2 was suppressed by inhibitors of c‐jun N‐terminal kinase (JNK) and nuclear factor‐κB, and by inhibitors of Na + /H + exchangers (NHEs). The bafilomycin A 1 ‐induced activation of JNK but not degradation of IκB‐α was suppressed by NHE inhibitors and by an inhibitor of Na + /Ca 2+ exchanger SN‐6. These results suggested that V‐ATPase inhibitors induce the expression of COX‐2 via NHE‐dependent and ‐independent pathways.
Hypoxia-inducible factor (HIF)-1α is a crucial transcription factor associated with cancer metabolism and is regarded as a potent anticancer therapeutic strategy within the hypoxic microenvironment of cancer. In this study, stilbenoid derivatives were designed, synthesized, and assessed for their capacity to inhibit HIF-1α-associated cancer metabolism and evaluated for inhibition of cancer cell viability and HIF activation. Through the structure-activity relationship studies, compound 28e was identified as the most potent derivative. Specifically, under the hypoxic condition, 28e reduced the accumulation of HIF-1α protein and the expression of its target genes related to glucose metabolism without affecting the expression of HIF-1α mRNA. Furthermore, 28e inhibited glucose uptake, glycolytic metabolism, and mitochondrial respiration, decreasing cellular ATP production under hypoxic conditions. In addition, 28e displayed significant anti-tumor effects and effectively suppressed the accumulation of HIF-1α protein in tumor tissue in vivo xenograft model. These findings suggest that our stilbenoid derivatives exert their anticancer effects by targeting HIF-1α-centered cancer metabolism under hypoxic conditions.
Diaryl-substituted ortho-carboranes 1 were synthesized from the corresponding alkynes by decaborane coupling under microwave-irradiated conditions with a combination of N,N-dimethylaniline and chlorobenzene. Among the compounds synthesized, 1a and 1d exhibited significant inhibition of hypoxia-induced HIF-1 transcriptional activity. Both compounds similarly suppressed hypoxia-induced HIF-1α accumulation in a concentration-dependent manner without affecting HIF-1α mRNA expression.
The indenopyrazole framework was investigated as a new class of HIF-1α inhibitors. Indenopyrazole 2l was found to most strongly inhibit the hypoxia-induced HIF-1α transcriptional activity (IC50 = 0.014 μM) among all of the known compounds having relatively simple structures, unlike manassantins. Indenopyrazole 2l suppressed HIF-1α transcriptional activity without affecting both HIF-1α protein accumulation and HIF-1α/HIF-1β heterodimerization in nuclei under the hypoxic conditions, suggesting that 2l probably affected the transcriptional pathway induced by the HIF-1α/HIF-1β heterodimer.
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