Marta Palomo-Irigoyen scite author profile

Lipid metabolism rearrangements in nonalcoholic fatty liver disease (NAFLD) contribute to disease progression. NAFLD has emerged as a major risk for hepatocellular carcinoma (HCC), where metabolic reprogramming is a hallmark. Identification of metabolic drivers might reveal therapeutic targets to improve HCC treatment. Here, we investigated the contribution of transcription factors E2F1 and E2F2 to NAFLD-related HCC and their involvement in metabolic rewiring during disease progression. In mice receiving a high-fat diet (HFD) and diethylnitrosamine (DEN) administration, E2f1 and E2f2 expressions were increased in NAFLD-related HCC. In human NAFLD, E2F1 and E2F2 levels were also increased and positively correlated. E2f1−/− and E2f2−/− mice were resistant to DEN–HFD-induced hepatocarcinogenesis and associated lipid accumulation. Administration of DEN–HFD in E2f1−/− and E2f2−/− mice enhanced fatty acid oxidation (FAO) and increased expression of Cpt2, an enzyme essential for FAO, whose downregulation is linked to NAFLD-related hepatocarcinogenesis. These results were recapitulated following E2f2 knockdown in liver, and overexpression of E2f2 elicited opposing effects. E2F2 binding to the Cpt2 promoter was enhanced in DEN–HFD-administered mouse livers compared with controls, implying a direct role for E2F2 in transcriptional repression. In human HCC, E2F1 and E2F2 expressions inversely correlated with CPT2 expression. Collectively, these results indicate that activation of the E2F1–E2F2–CPT2 axis provides a lipid-rich environment required for hepatocarcinogenesis. Significance: These findings identify E2F1 and E2F2 transcription factors as metabolic drivers of hepatocellular carcinoma, where deletion of just one is sufficient to prevent disease.

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HuR/ELAVL1 drives malignant peripheral nerve sheath tumor growth and metastasis

Palomo-Irigoyen¹,

Pérez-Andrés²,

Iruarrizaga‐Lejarreta³

et al. 2020

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Sequestosome 1/p62 enhances chronic skin inflammation

Sukseree

Bakiri

Palomo-Irigoyen

et al. 2021

Journal of Allergy and Clinical Immunology

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Background: The molecular control of inflammation and epidermal thickening in skin lesions of patients with atopic dermatitis (AD) is not known. Sequestosome 1/p62 is a multifunctional adapter protein implicated in the control of key regulators of cellular homeostasis, such as proinflammatory and mechanistic target of rapamycin signaling. Objective: We sought to determine whether p62 plays a role in the cutaneous and systemic manifestations of an AD-like mouse model. Methods: AD-like skin lesions were induced by deletion of JunB/AP-1, specifically in epidermal keratinocytes (JunB Dep ). The contribution of p62 to pathological changes was determined by inactivation of p62 in JunB Dep p62 2/2 double knockout mice. Results: Expression of p62 was elevated in skin lesions of JunB Dep mice, resembling upregulation of p62 in AD and psoriasis. When p62 was inactivated, JunB Dep -associated defects in the differentiation of keratinocytes, epidermal thickening, skin infiltration by mast cells and neutrophils, and the development of macroscopic skin lesions were significantly reduced. p62 inactivation had little effect on circulating cytokines, but decreased serum IgE. Signaling through mechanistic target of rapamycin and natural factor kappa B was increased in JunB Dep but not in JunB Dep p62 2/2 double knockout skin, indicating an important role of p62 in enhancing these signaling pathways in the skin during AD-like inflammation. Conclusions: Our results provide the first in vivo evidence for a proinflammatory role of p62 in skin and suggest that p62dependent signaling pathways may be promising therapeutic targets to ameliorate the skin manifestations of AD and possibly psoriasis.

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