I.R. Hernández Millán scite author profile

Summary Chronic inflammation increases the risk of several cancer types. The current notion is that the control of inflammatory responses relies on transcriptional networks distinct from those involved in cell differentiation 1–3. The orphan nuclear receptor NR5A2 participates in a wide variety of processes including cholesterol and glucose metabolism in the liver, resolution of ER stress, intestinal glucocorticoid production, pancreatic development, and acinar differentiation 4–8. Single nucleotide polymorphisms (SNPs) in the vicinity of NR5A2 have been associated with the risk of pancreatic adenocarcinoma (PDAC) through genome wide association studies 9,10. In mice, Nr5a2 heterozygosity sensitizes the pancreas to damage, impairs regeneration, and cooperates with mutant KRas in tumor progression 11. Through global transcriptomic analysis, we describe here an epithelial cell-autonomous basal pre-inflammatory state in the pancreas of Nr5a2+/− mice that is reminiscent of early stages of pancreatitis-induced inflammation and is conserved in histologically normal human pancreata with reduced NR5A2 mRNA expression. In Nr5a2+/− mice, Nr5a2 undergoes a dramatic transcriptional switch relocating from differentiation-specific to inflammatory genes thereby promoting AP-1-dependent gene transcription. Pancreatic deletion of c-Jun rescues the pre-inflammatory phenotype, Nr5a2 binding to inflammatory gene promoters, and the defective regenerative response to damage. These findings support the notion that, in the pancreas, the same transcriptional networks involved in differentiation-specific functions suppress inflammatory programmes. These networks can be subverted to foster inflammation upon genetic or environmental constraints.

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HNF1A recruits KDM6A to activate differentiated acinar cell programs that suppress pancreatic cancer

Ferrer

Bernardo

Beucher

et al. 2020

The EMBO Journal

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Defects in transcriptional regulators of pancreatic exocrine differentiation have been implicated in pancreatic tumorigenesis, but the molecular mechanisms are poorly understood. The locus encoding the transcription factor HNF1A harbors susceptibility variants for pancreatic ductal adenocarcinoma (PDAC), while KDM6A, encoding Lysinespecific demethylase 6A, carries somatic mutations in PDAC. Here, we show that pancreas-specific Hnf1a null mutant transcriptomes phenocopy those of Kdm6a mutations, and both defects synergize with Kras G12D to cause PDAC with sarcomatoid features. We combine genetic, epigenomic, and biochemical studies to show that HNF1A recruits KDM6A to genomic binding sites in pancreatic acinar cells. This remodels the acinar enhancer landscape, activates differentiated acinar cell programs, and indirectly suppresses oncogenic and epithelial-mesenchymal transition genes. We also identify a subset of nonclassical PDAC samples that exhibit the HNF1A/KDM6A-deficient molecular phenotype. These findings provide direct genetic evidence that HNF1A deficiency promotes PDAC. They also connect the tumorsuppressive role of KDM6A deficiency with a cell-specific molecular mechanism that underlies PDAC subtype definition.

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Neuronal Cell Fate Specification by the Convergence of Different Spatiotemporal Cues on a Common Terminal Selector Cascade

et al. 2016

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Specification of the myriad of unique neuronal subtypes found in the nervous system depends upon spatiotemporal cues and terminal selector gene cascades, often acting in sequential combinatorial codes to determine final cell fate. However, a specific neuronal cell subtype can often be generated in different parts of the nervous system and at different stages, indicating that different spatiotemporal cues can converge on the same terminal selectors to thereby generate a similar cell fate. However, the regulatory mechanisms underlying such convergence are poorly understood. The Nplp1 neuropeptide neurons in the Drosophila ventral nerve cord can be subdivided into the thoracic-ventral Tv1 neurons and the dorsal-medial dAp neurons. The activation of Nplp1 in Tv1 and dAp neurons depends upon the same terminal selector cascade: col>ap/eya>dimm>Nplp1. However, Tv1 and dAp neurons are generated by different neural progenitors (neuroblasts) with different spatiotemporal appearance. Here, we find that the same terminal selector cascade is triggered by Kr/pdm>grn in dAp neurons, but by Antp/hth/exd/lbe/cas in Tv1 neurons. Hence, two different spatiotemporal combinations can funnel into a common downstream terminal selector cascade to determine a highly related cell fate.

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The Impact of Benign Prostatic Hyperplasia Surgery on Patients’ Quality of Life

Sánchez

Millán²,

Martín³

et al. 2002

Urol Int

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Objective: To assess the impact of surgical treatment of benign hyperplasia of the prostate on patients’ quality of life (QoL). Material and Methods: The QoL of 181 patients was assessed by the health questionnaire SF-36. The measurement was carried out before and 6 months after surgery. Results: After surgery, SF-36 scales improved their scores, fundamentally General Health (57.4%) and Physical Functioning (57.1%). 70.3% improved their physical component summary (PCS) and 49.1% their mental component summary (MCS). The improved PCS and MCS were not associated with the improved I-PSS or urine flow. The improved PCS was 2.2 times higher in patients who had previously scored under 44 in the PCS, 2.2 in patients who had scored over 25 in the I-PSS, and 2.9 times higher in patients without chronic diseases. With regard to MCS improvement, this was 17.1 times higher in patients who scored under 50 previously on the MCS, 3.1 in patients who scored over 4 on the IQL, 5.7 in patients without postoperative incontinence, and 3.3 times higher in patients who lived in urban areas. Conclusions: Improvement in QoL after surgery is noted more in physical than in psychological aspects. Although a reduction in the intensity of prostatic symptoms and an increase in urine flow values were noted postoperatively, the improvement QoL was not associated with improved symptoms or urinary flow.

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