Your search keyword '"Puigserver, Pere"' showing total 5 results

1. H3K27me3-mediated PGC1[alpha] gene silencing promotes melanoma invasion through WNT5A and YAP

Author

Luo, Chi, Balsa, Eduardo, Perry, Elizabeth A., Liang, Jiaxin, Tavares, Clint D., Vazquez, Francisca, Widlund, Hans R., and Puigserver, Pere

Subjects

Genetic engineering, Epigenetic inheritance, Melanoma, Cancer metastasis, Chromatin, Tumors, Diseases, Health care industry

Abstract

Oncogene-targeted and immune checkpoint the rapies have revolutionized the clinical management of malignant melanoma and now offer hope to patients with advanced disease. Intimately connected to patients' overall clinical risk is whether the initial primary melanoma lesion will metastasize and cause advanced disease, but underlying mechanisms are not entirely understood. A subset of melanomas display heightened peroxisome proliferator-activated receptor y coactivator 1-a (PGC1[alpha]) expression that maintains cell survival cues by promoting mitochondrial function, but also suppresses metastatic spread. Here, we show that PGC1[alpha] expression in melanoma cells was silenced by chromatin modifications that involve promoter H3K27 trimethylation. Pharmacological EZH2 inhibition diminished H3K27me3 histone markers, increased PGC1[alpha] expression, and functionally suppressed invasion within PGC1[alpha]-silenced melanoma cells. Mechanistically, PGC1[alpha] silencing activated transcription factor 12 (TCF12), to increase expression of WNT5A, which in turn stabilized YAP protein levels to promote melanoma migration and metastasis. Accordingly, inhibition of components of this transcription-signaling axis, including TCF12, WNT5A, or YAP, blocked melanoma migration in vitro and metastasis in vivo. These results indicate that epigenetic control of melanoma metastasis involved altered expression of PGC1[alpha] and an association with the inherent metabolic state of the tumor., Introduction Recent breakthroughs in the clinical management of malignant melanoma, which include treatment using BRAF(V600E)-targeted drugs and immune checkpoint-blocking antibodies, now improve survival for patients with advanced stage disease (1). [...]

Published

2020

2. Controversies surrounding peripheral cannabinoid receptor 1 in fatty liver disease

Author

Mutlu, Beste and Puigserver, Pere

Subjects

Health care industry

Abstract

Cannabinoid receptor 1 (CB-1) antagonists are potential candidates for treating obesity and metabolic complications. Despite clear metabolic benefits, unwanted side effects in the brain pose issues for patients. With the hope of overcoming this obstacle, CB-1 in peripheral tissues has become a potential drug target. Previous studies had suggested that liver CB-1 would be an excellent target to prevent development of nonalcoholic steatohepatitis (NAFLD). However, in this issue of the JCI, Wang et al. showed that CB-1 was barely detectable in the liver and deletion of CB-1 in hepatocytes provided no metabolic benefits against NAFLD. These contradictory results raise substantial concerns about the potential benefits of peripheral CB-1 blockers against NAFLD., Sources of liver fat in metabolic diseases NAFLD is a continuum of liver pathologies, usually seen in overweight or obese people, that can be described in three progressive stages: (a) [...]

Published

2021

3. The sirtuin family's role in aging and age-associated pathologies

Author

Hall, Jessica A., Dominy, John E., Lee, Yoonjin, and Puigserver, Pere

Subjects

Aging -- Complications and side effects -- Genetic aspects -- Research, Chronic diseases -- Risk factors -- Genetic aspects -- Care and treatment -- Research, Transferases -- Physiological aspects -- Genetic aspects -- Research, Health care industry

Abstract

The 7 mammalian sirtuin proteins compose a protective cavalry of enzymes that can be invoked by cells to aid in the defense against a vast array of stressors. The pathologies [...]

Published

2013

4. A metabolic prosurvival role for PML in breast cancer

Author

Carracedo, Arkaitz, Weiss, Dror, Leliaert, Amy K., Bhasin, Manoj, de Boer, Vincent C.J., Laurent, Gaelle, Adams, Andrew C., Sundvall, Maria, Song, Su Jung, Ito, Keisuke, Finley, Lydia S., Egia, Ainara, Libermann, Towia, Gerhart-Hines, Zachary, Puigserver, Pere, Haigis, Marcia C., Maratos-Flier, Elefteria, Richardson, Andrea L., Schafer, Zachary T., and Pandolfi, Pier P.

Subjects

Gene expression -- Research, Cell metabolism -- Genetic aspects, Myelocytic leukemia -- Diagnosis -- Care and treatment, Breast cancer -- Diagnosis -- Care and treatment, Nonlymphoid leukemia -- Diagnosis -- Care and treatment, Health care industry

Abstract

Cancer cells exhibit an aberrant metabolism that facilitates more efficient production of biomass and hence tumor growth and progression. However, the genetic cues modulating this metabolic switch remain largely undetermined. We identified a metabolic function for the promyelocytic leukemia (PML) gene, uncovering an unexpected role for this bona fide tumor suppressor in breast cancer cell survival. We found that PML acted as both a negative regulator of PPARγ coactivator 1A (PGC1A) acetylation and a potent activator of PPAR signaling and fatty acid oxidation. We further showed that PML promoted ATP production and inhibited anoikis. Importantly, PML expression allowed luminal filling in 3D basement membrane breast culture models, an effect that was reverted by the pharmacological inhibition of fatty acid oxidation. Additionally, immunohistochemical analysis of breast cancer biopsies revealed that PML was overexpressed in a subset of breast cancers and enriched in triple-negative cases. Indeed, PML expression in breast cancer correlated strikingly with reduced time to recurrence, a gene signature of poor prognosis, and activated PPAR signaling. These findings have important therapeutic implications, as PML and its key role in fatty acid oxidation metabolism are amenable to pharmacological suppression, a potential future mode of cancer prevention and treatment., Introduction It is well established that reprogramming of cellular metabolism by cancer genes is a key step in cancer pathogenesis and progression (1). Indeed, more than a century ago, Otto [...]

Published

2012

5. H3K27me3-mediated PGC1α gene silencing promotes melanoma invasion through WNT5A and YAP.

Author

Chi Luo, Balsa, Eduardo, Perry, Elizabeth A., Jiaxin Liang, Tavares, Clint D., Vazquez, Francisca, Widlund, Hans R., Puigserver, Pere, Luo, Chi, and Liang, Jiaxin

Subjects

*GENE silencing, *PEROXISOME proliferator-activated receptors, *MELANOMA, *TRANSCRIPTION factors

Abstract

Oncogene-targeted and immune checkpoint therapies have revolutionized the clinical management of malignant melanoma and now offer hope to patients with advanced disease. Intimately connected to patients' overall clinical risk is whether the initial primary melanoma lesion will metastasize and cause advanced disease, but underlying mechanisms are not entirely understood. A subset of melanomas display heightened peroxisome proliferator-activated receptor γ coactivator 1-α (PGC1α) expression that maintains cell survival cues by promoting mitochondrial function, but also suppresses metastatic spread. Here, we show that PGC1α expression in melanoma cells was silenced by chromatin modifications that involve promoter H3K27 trimethylation. Pharmacological EZH2 inhibition diminished H3K27me3 histone markers, increased PGC1α expression, and functionally suppressed invasion within PGC1α-silenced melanoma cells. Mechanistically, PGC1α silencing activated transcription factor 12 (TCF12), to increase expression of WNT5A, which in turn stabilized YAP protein levels to promote melanoma migration and metastasis. Accordingly, inhibition of components of this transcription-signaling axis, including TCF12, WNT5A, or YAP, blocked melanoma migration in vitro and metastasis in vivo. These results indicate that epigenetic control of melanoma metastasis involved altered expression of PGC1α and an association with the inherent metabolic state of the tumor. [ABSTRACT FROM AUTHOR]

Published

2020