Daisy R. Chilin‐Fuentes scite author profile

Background and Aims: Nucleotide‐binding oligomerization domain‐like receptor‐family pyrin domain‐containing 3 (NLRP3) inflammasome activation has been shown to result in liver fibrosis. Mechanisms and downstream signaling remain incompletely understood. Here, we studied the role of IL‐18 in hepatic stellate cells (HSCs), and its impact on liver fibrosis. Approach and Results: We observed significantly increased serum levels of IL‐18 (128.4 pg/ml vs. 74.9 pg/ml) and IL‐18 binding protein (BP; 46.50 ng/ml vs. 15.35 ng/ml) in patients with liver cirrhosis compared with healthy controls. Single cell RNA sequencing data showed that an immunoregulatory subset of murine HSCs highly expresses Il18 and Il18r1. Treatment of cultured primary murine HSC with recombinant mouse IL‐18 accelerated their transdifferentiation into myofibroblasts. In vivo, IL‐18 receptor‐deficient mice had reduced liver fibrosis in a model of fibrosis induced by HSC‐specific NLRP3 overactivation. Whole liver RNA sequencing analysis from a murine model of severe NASH‐induced fibrosis by feeding a choline‐deficient, L‐amino acid‐defined, high fat diet showed that genes related to IL‐18 and its downstream signaling were significantly upregulated, and Il18 −/− mice receiving this diet for 10 weeks showed protection from fibrotic changes with decreased number of alpha smooth muscle actin‐positive cells and collagen deposition. HSC activation triggered by NLRP3 inflammasome activation was abrogated when IL‐18 signaling was blocked by its naturally occurring antagonist IL‐18BP. Accordingly, we observed that the severe inflammatory phenotype associated with myeloid cell‐specific NLRP3 gain‐of‐function was rescued by IL‐18BP. Conclusions: Our study highlights the role of IL‐18 in the development of liver fibrosis by its direct effect on HSC activation identifying IL‐18 as a target to treat liver fibrosis.

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Cell-type-specific responses to the microbiota across all tissues of the larval zebrafish

Massaquoi¹,

Kong²,

Chilin‐Fuentes³

et al. 2023

Cell Reports

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Identification of adipose tissue transcriptomic memory of anorexia nervosa

Zapata

Nasamran

Chilin‐Fuentes

et al. 2023

Mol Med

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Background Anorexia nervosa (AN) is a complex debilitating disease characterized by intense fear of weight gain and excessive exercise. It is the deadliest of any psychiatric disorder with a high rate of recidivism, yet its pathophysiology is unclear. The Activity-Based Anorexia (ABA) paradigm is a widely accepted mouse model of AN that recapitulates hypophagia and hyperactivity despite reduced body weight, however, not the chronicity. Methods Here, we modified the prototypical ABA paradigm to increase the time to lose 25% of baseline body weight from less than 7 days to more than 2 weeks. We used this paradigm to identify persistently altered genes after weight restoration that represent a transcriptomic memory of under-nutrition and may contribute to AN relapse using RNA sequencing. We focused on adipose tissue as it was identified as a major location of transcriptomic memory of over-nutririon. Results We identified 300 dysregulated genes that were refractory to weight restroration after ABA, including Calm2 and Vps13d, which could be potential global regulators of transcriptomic memory in both chronic over- and under-nutrition. Conclusion We demonstrated the presence of peristent changes in the adipose tissue transcriptome in the ABA mice after weight restoration. Despite being on the opposite spectrum of weight perturbations, majority of the transcriptomic memory genes of under- and over-nutrition did not overlap, suggestive of the different mechanisms involved in these extreme nutritional statuses.

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