Antiproliferative small-molecule inhibitors of transcription factor LSF reveal oncogene addiction to LSF in hepatocellular carcinoma

Grant, Trevor J.; Bishop, Joshua; Christadore, Lisa M.; Barot, Girish; Chin, Hang Gyeong; Woodson, Sarah A.; Kavouris, John; Siddiq, Ayesha; Gredler, Rachel; Shen, Xue‐Ning; Sherman, Jennifer; Meehan, Tracy L.; Fitzgerald, Kevin; Pradhan, Sriharsa; Briggs, Laura; Andrews, W. H.; Sarkar, Devanand; Schaus, Scott E.; Hansen, Ulla

doi:10.1073/pnas.1121601109

Cited by 38 publications

(76 citation statements)

References 34 publications

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“…In addition to TS, LSF transcribes several genes associated with aggressive cancers, including osteopontin (OPN), MMP9, MET, and complement factor H (CFH) (Yoo et al, 2011b). A high-throughput screen identified factor quinolinone inhibitor 1 (FQI1) as an LSF DNA binding inhibitor that induces apoptosis and inhibits proliferation of HCC cells (Grant et al, 2012). Because specific inhibitors to target AEG-1/MTDH/LYRIC have not been identified, inhibiting AEG-1/MTDH/LYRIC downstream effector LSF may provide a new strategy to treat HCC.…”

Section: Aeg-1/mtdh/lyric Downstream Genes Identified By Microarraymentioning

confidence: 99%

“…Because specific inhibitors to target AEG-1/MTDH/LYRIC have not been identified, inhibiting AEG-1/MTDH/LYRIC downstream effector LSF may provide a new strategy to treat HCC. Indeed, LSF may very well represent an “Achilles heel” for HCC given the addiction to LSF for survival (Grant et al, 2012). …”

Section: Aeg-1/mtdh/lyric Downstream Genes Identified By Microarraymentioning

confidence: 99%

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Drug Resistance Mediated by AEG-1/MTDH/LYRIC

Meng

Thiel

Leslie

2013

Advances in Cancer Research

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AEG-1/MTDH/LYRIC has been shown to promote cancer progression and development. Overexpression of AEG-1/MTDH/LYRIC correlates with angiogenesis, metastasis and chemoresistance to various chemotherapy agents in cancer cells originating from a variety of tissues. In this review article, we focus on the role of AEG-1/MTDH/LYRIC in drug resistance. Mechanistic studies have shown that AEG-1/MTDH/LYRIC is involved in classical oncogenic pathways including Ha-Ras, myc, NFκB and PI3K/Akt. AEG-1/MTDH/LYRIC also promotes protective autophagy by activating AMP kinase and autophagy-related gene 5. Another reported mechanism by which AEG-1/MTDH/LYRIC regulates drug resistance is by increasing loading of multidrug resistance gene (MDR) 1 mRNA to the polysome, thereby facilitating MDR1 protein translation. More recently, a novel function for AEG-1/MTDH/LYRIC as an RNA binding protein was elucidated, which has the potential to impact expression of drug sensitivity or resistance genes. Finally, AEG-1/MTDH/LYRIC acts in microRNA-directed gene silencing via an interaction with staphylococcal nuclease and tudor domain containing 1 (SND1), a component of the RNA-induced silencing complex. Altered microRNA expression and activity induced by AEG-1/MTDH/LYRIC represents an additional way that AEG-1/MTDH/LYRIC may cause drug resistance in cancer. The multiple functions of AEG-1/MTDH/LYRIC in drug resistance highlight that it is a viable target as an anti-cancer agent for a wide variety of cancers.

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Section: Aeg-1/mtdh/lyric Downstream Genes Identified By Microarraymentioning

confidence: 99%

Section: Aeg-1/mtdh/lyric Downstream Genes Identified By Microarraymentioning

confidence: 99%

Drug Resistance Mediated by AEG-1/MTDH/LYRIC

Meng

Thiel

Leslie

2013

Advances in Cancer Research

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“…In all cases, inhibition of tumor growth occurred in the absence of toxicity, as assessed by liver injury markers, histopathology of tissues with rapid cell turnover, or blood cell counts (18). These results suggested that hepatocellular carcinoma cells are oncogene addicted to LSF (14,19).…”

Section: Introductionmentioning

confidence: 87%

“…A family of small molecule inhibitors of LSF, Factor Quinolinone Inhibitors (FQIs), was identified that inhibits the DNA binding and transcription activity of LSF, but not that of transcription factors from multiple other structural classes (14). Activity of p53, the closest structural relative of the LSF family (15,16), was also not inhibited by FQIs.…”

Section: Introductionmentioning

confidence: 99%

Targeting the oncogene LSF with either the small molecule inhibitor FQI1 or siRNA causes mitotic delays with unaligned chromosomes, resulting in cell death or senescence

Willoughby

George

Roberto³

et al. 2019

Preprint

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The oncogene LSF has been proposed as a novel target with therapeutic potential for multiple cancers. LSF overexpression correlates with poor prognosis for both liver and colorectal cancers, for which there are currently limited therapeutic treatment options. In particular, molecularly targeted therapies for hepatocellular carcinoma targeting cellular receptors and kinases have yielded disappointing clinical results, providing an urgency for targeting distinct mechanisms. LSF small molecule inhibitors, Factor Quinolinone Inhibitors (FQIs), have exhibited robust anti-tumor activity in multiple pre-clinical models of hepatocellular carcinoma, with no observable toxicity. To understand how the inhibitors impact cancer cell proliferation, we characterized the cellular phenotypes that result from loss of LSF activity. Phenotypically, inhibition of LSF activity induced a mitotic delay with condensed, but unaligned, chromosomes.This mitotic disruption resulted in improper cellular division leading to multiple outcomes: multi-nucleation, apoptosis, and cellular senescence. The cellular phenotypes observed upon FQI1 treatment were due specifically to the loss of LSF activity, as siRNA specifically targeting LSF produced nearly identical phenotypes. Taken together, these findings confirm that LSF is a promising therapeutic target for cancer treatment.Significance Specific inhibition of LSF by either small molecules or siRNA results in mitotic defects resulting in cell death or senescence, supporting the promise for LSF inhibitory strategies as treatment for LSF-related cancers with high unmet medical needs.

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“…A high-throughput screening identified small-molecule inhibitors of LSF DNA binding and the prototype of these molecules, Factor quinolinone inhibitor 1 (FQI1), profoundly inhibited cell viability and induced apoptosis in human HCC cells without exerting harmful effects to normal immortal human hepatocytes and primary mouse hepatocytes (Grant et al, 2012). In nude mice xenograft studies, FQI1 markedly inhibited growth of human HCC xenografts as well as angiogenesis without exerting any toxicity.…”

Section: Aeg-1/mtdh/lyric Downstream Genesmentioning

confidence: 99%

AEG-1/MTDH/LYRIC in Liver Cancer

Sarkar

2013

Advances in Cancer Research

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Hepatocellular carcinoma (HCC) is a highly virulent malignancy with diverse etiology. Identification of a common mediator of aggressive progression of HCC would be extremely beneficial not only for diagnostic/prognostic purposes but also for developing targeted therapies. AEG-1/MTDH/LYRIC gene is amplified in human HCC patients, and overexpression of AEG-1/MTDH/LYRIC has been identified in a high percentage of both hepatitis B virus and hepatitis C virus positive HCC cases, suggesting its key role in regulating hepatocarcinogenesis. Important insights into the molecular mechanisms mediating oncogenic properties of AEG-1/MTDH/LYRIC, especially regulating chemoresistance, angiogenesis, and metastasis, have been obtained from studies using HCC model. Additionally, analysis of HCC model has facilitated the identification of AEG-1/MTDH/LYRIC downstream genes and interacting proteins, thereby unraveling novel players regulating HCC development and progression leading to the development of novel interventional strategies. Characterization of a hepatocyte-specific AEG-1/MTDH/LYRIC transgenic mouse (Alb/AEG-1) has revealed novel aspects of AEG-1/MTDH/LYRIC function in in vivo contexts. Combination of AEG-1/MTDH/LYRIC inhibition and chemotherapy has documented significant efficacy in abrogating human HCC xenografts in nude mice indicating the need for developing effective AEG-1/MTDH/LYRIC inhibition strategies to obtain objective response and survival benefits in terminal HCC patients.

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Antiproliferative small-molecule inhibitors of transcription factor LSF reveal oncogene addiction to LSF in hepatocellular carcinoma

Cited by 38 publications

References 34 publications

Drug Resistance Mediated by AEG-1/MTDH/LYRIC

Drug Resistance Mediated by AEG-1/MTDH/LYRIC

Targeting the oncogene LSF with either the small molecule inhibitor FQI1 or siRNA causes mitotic delays with unaligned chromosomes, resulting in cell death or senescence

AEG-1/MTDH/LYRIC in Liver Cancer

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