A precursor‐inducible zebrafish model of acute protoporphyria with hepatic protein aggregation and multiorganelle stress

Elenbaas, Jared S.; Maitra, Dhiman; Liu, Yang; Lentz, Stephen I.; Nelson, Bradley; Hoenerhoff, Mark J.; Shavit, Jordan A.; Omary, M. Bishr

doi:10.1096/fj.201500111r

Cited by 21 publications

(33 citation statements)

References 60 publications

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“…Cytosolic (K8/K18) and nuclear (Lamin A/C, Lamin B1) IF proteins have been reported to be highly susceptible to porphyrin-mediated aggregation. 11,12,24,25 Indeed, DDC caused upregulation of both K8 and K18 in both control+DDC and β-catenin DsiRNA+DDC livers as previously described 4 (Fig. 6A, 6B, upper panel, and Fig.…”

Section: Resultssupporting

confidence: 80%

“…Given that recent studies have shown the unique role of porphyrins in causing protein aggregation, 11,12,24 we next analyzed the extent of protein aggregation after DDC. SDS-PAGE and Coomassie blue staining show changes in the protein banding pattern as a function of DDC (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Previous studies showed that porphyrins cause ER stress through a non-canonical pathway involving ER protein aggregation. 11,12 Since IRE1a is essential in activating the unfolded protein response during ER stress, we analyzed its expression before and after DDC. Under basal conditions, we saw increased IRE1a expression in β-catenin DsiRNA-treated livers (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…10 Protein aggregation hinders clearance, causing proteasomal inhibition and induction of autophagy. 11,12 Because of crystallized porphyrin biliary plugs, DDC also results in ductular reaction, pericholangitis and periductal fibrosis, similar to that seen in patients with primary sclerosing cholangitis. 13…”

Section: Introductionmentioning

confidence: 96%

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Loss of hepatocyte β-catenin protects mice from experimental porphyria-associated liver injury

Saggi

Maitra

Jiang

et al. 2019

Journal of Hepatology

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Background & Aims: Porphyrias result from anomalies of heme biosynthetic enzymes and can lead to cirrhosis and hepatocellular cancer. In mice, these diseases can be modeled by administration of a diet containing 3,5-diethoxycarbonyl-1,4-d ihydrocollidine (DDC), which causes accumulation of porphyrin intermediates, resulting in hepatobiliary injury. Wnt/β-catenin signaling has been shown to be a modulatable target in models of biliary injury; thus, we investigated its role in DDC-driven injury. Methods: β-Catenin (Ctnnb1) knockout (KO) mice, Wnt co-receptor KO mice, and littermate controls were fed a DDC diet for 2 weeks. β-Catenin was exogenously inhibited in hepatocytes by administering β-catenin dicer-substrate RNA (DsiRNA), conjugated to a lipid nanoparticle, to mice after DDC diet and then weekly for 4 weeks. In all experiments, serum and livers were collected; livers were analyzed by histology, western blotting, and real-time PCR. Porphyrin was measured by fluorescence, quantification of polarized light images, and liquid chromatography-mass spectrometry. Results: DDC-fed mice lacking β-catenin or Wnt signaling haddecreased liver injury compared to controls. Exogenous mice that underwent β-catenin suppression by DsiRNA during DDC feeding also showed less injury compared to control mice receiving lipid nanoparticles. Control livers contained extensive porphyrin deposits which were largely absent in mice lacking β-catenin signaling. Notably, we identified a network of key heme biosynthesis enzymes that are suppressed in the absence of β-catenin, preventing accumulation of toxic protoporphyrins. Additionally, mice lacking β-catenin exhibited fewer protein aggregates, improved proteasomal activity, and reduced induction of autophagy, all contributing to protection from injury. Conclusions: β-Catenin inhibition, through its pleiotropic effects on metabolism, cell stress, and autophagy, represents a novel therapeutic approach for patients with porphyria.

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Section: Resultssupporting

confidence: 80%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 96%

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Loss of hepatocyte β-catenin protects mice from experimental porphyria-associated liver injury

Saggi

Maitra

Jiang

et al. 2019

Journal of Hepatology

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“…Most sequences in NCBI database were predicted based on bioinformatic analysis. In bony fishes, only the sequence of zebrafish (danio rerio) [11] was cloned. Interestingly, similar to yeast homology, zebrafish ATG16L1 is lack of WD40-repeat domain but predicted ATG16L1 sequence of other bony fishes such as common carp (cyprinus carpio) not.…”

Section: Introductionmentioning

confidence: 99%

Molecular Characterization, 3D Modeling of Grass Carp Autophagy Related 16 Protein Like 1 (ATG16L1)

Yin¹,

Li²,

Qiu³

et al. 2018

dtbh

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Abstract. Autophagy is a highly conserved homoeostatic mechanism, which plays a pivotal role in both metabolism and immune systems. Among autophagy related (ATG) proteins, ATG16L1 assists the formation of the phagophore and participates in the resistant of bacterial invasion in mammals. However, in grass carp (ctenopharyngodon idellus), one of the four major Chinese carps, the characterization of ATG16L1 remains to be defined. This paper described the cloning and characterization of grass carp ATG16L1 (gcATG16L1) and the 3D structure of its WD40-repeat domain was predicted. The CDS of gcATG16L1 consists of 1872 base pairs and encodes 624 amino acids with three conserved domains, a ATG5-binding domain, a coiled-coil domain (CCD), and a WD40-repeat domain. The phylogenetic analysis clusters gcATG16L1 with common carp but independently of the zebrafish homolog, since zebrafish ATG16L1 lacks WD40-repeat domain. The 3D structure of gcATG16L1 WD40-repeat domain was the first homology model of fish ATG16L1 and revealed a high similarity with the mammalian counterparts, which has been deduced to be involved in mediating interaction with several factors, such as ubiquitin and NOD-CARD, and regulating inflammatory response.

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Models for human porphyrias: Have animals in the wild been overlooked?

Neves

Galván

2020

BioEssays

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Humans accumulate porphyrins in the body mostly during the course of porphyrias, diseases caused by defects in the enzymes of the heme biosynthesis pathway and that produce acute attacks, skin lesions and liver cancer. In contrast, some wild mammals and birds are adapted to accumulate porphyrins without injurious consequences. Here we propose viewing such physiological adaptations as potential solutions to human porphyrias, and suggest certain wild animals as models. Given the enzymatic activity and/or the patterns of porphyrin excretion and accumulation, the fox squirrel, the great bustard and the Eurasian eagle owl may constitute overlooked models for different porphyrias. The Harderian gland of rodents, where large amounts of porphyrins are synthesized, presents an underexplored potential for understanding the carcinogenic/toxic effect of porphyrin accumulation. Investigating how these animals avoid porphyrin pathogenicity may complement the use of laboratory models for porphyrias and provide new insights into the treatment of these disorders.

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A precursor‐inducible zebrafish model of acute protoporphyria with hepatic protein aggregation and multiorganelle stress

Cited by 21 publications

References 60 publications

Loss of hepatocyte β-catenin protects mice from experimental porphyria-associated liver injury

Loss of hepatocyte β-catenin protects mice from experimental porphyria-associated liver injury

Molecular Characterization, 3D Modeling of Grass Carp Autophagy Related 16 Protein Like 1 (ATG16L1)

Models for human porphyrias: Have animals in the wild been overlooked?

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