Complete loss of function of the ubiquitin ligase HERC2 causes a severe neurodevelopmental phenotype

Morice‐Picard, Fanny; Bénard, Giovanni; Rezvani, Hamid Reza; Lasseaux, Eulalie; Simon, Delphine; Moutton, Sébastien; Rooryck, Caroline; Lacombe, Didier; Baumann, Clarisse; Arveiler, Benoı̂t

doi:10.1038/ejhg.2016.139

Cited by 31 publications

(33 citation statements)

References 15 publications

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“…Thus, ferroptosis might be an important driving mechanism to the progression of neurodegenerative diseases. Surprisingly, the complete loss of HERC2 is responsible for severe neurodevelopmental abnormalities, contributing to the pathogenesis of neurogenetic diseases (Morice‐Picard et al, ). HERC2 is a key modulator in ferritinophagy, particularly with high levels of cellular iron (Mancias et al, ).…”

Section: The Aggravated Impacts Of Ferroptosis On Neurodegenerative Dmentioning

confidence: 99%

“…Alzheimer's disease (AD), share several common processes in neural cell death, including iron accumulation and excess oxidative stress ( abnormalities, contributing to the pathogenesis of neurogenetic diseases (Morice-Picard et al, 2016). HERC2 is a key modulator in ferritinophagy, particularly with high levels of cellular iron (Mancias et al, 2015).…”

Section: The Aggravated Impacts Of Ferroptosis On Neurodegenerativementioning

confidence: 99%

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Ferritinophagy/ferroptosis: Iron‐related newcomers in human diseases

Tang

Chen

et al. 2018

Journal Cellular Physiology

209

121

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Nuclear receptor coactivator 4 mediated ferritinophagy is an autophagic phenomenon that specifically involves ferritin to release intracellular free iron. Ferritinophagy is implicated in maintaining efficient erythropoiesis. Notably, ferritinophagy also plays a central role in driving some pathological processes, including Parkinson's disease (PD) and urinary tract infections. Some evidence has demonstrated that ferritinophagy is critical to induce ferroptosis. Ferroptosis is a newly nonapoptotic form of cell death, characterized by the accumulation of iron-based lipid reactive oxygen species. Ferroptosis plays an important role in inhibiting some types of cancers, such as hepatocellular carcinoma, pancreatic carcinoma, prostate cancer, and breast cancer. Conversely, the activation of ferroptosis accelerates neurodegeneration diseases, including PD and Alzheimer's disease. Therefore, in this review, we summarize the regulatory mechanisms related to ferritinophagy and ferroptosis. Moreover, the distinctive effects of ferritinophagy in human erythropoiesis and some pathologies, coupled with the promotive or inhibitory role of tumorous and neurodegenerative diseases mediated by ferroptosis, are elucidated. Obviously, activating or inhibiting ferroptosis could be exploited to achieve desirable therapeutic effects on diverse cancers and neurodegeneration diseases. Interrupting ferritinophagy to control iron level might provide a potentially therapeutic avenue to suppress urinary tract infections.

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Section: The Aggravated Impacts Of Ferroptosis On Neurodegenerative Dmentioning

confidence: 99%

Section: The Aggravated Impacts Of Ferroptosis On Neurodegenerativementioning

confidence: 99%

Ferritinophagy/ferroptosis: Iron‐related newcomers in human diseases

Tang

Chen

et al. 2018

Journal Cellular Physiology

209

121

View full text Add to dashboard Cite

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“…In addition to the HERC2 gene, the HERC2 protein has been increasingly studied in recent years. The HERC2 protein, an E3 ubiquitin ligase belonging to the HERC protein family, has been shown to participate in multiple biological processes, including iron metabolism (Moroishi, Yamauchi, Nishiyama, & Nakayama, ), cell proliferation (Cubillos‐Rojas et al, ), cell cycle regulation (Mao, Sethi, Zhang, & Wang, ), DNA repair (Bekker‐Jensen et al, ), and apoptosis sensitivity (Morice‐Picard et al, ). Iron is essential for embryo growth‐related functions, including DNA synthesis, mitochondrial function, and immune response.…”

Section: Discussionmentioning

confidence: 99%

Peptidomic analysis of blastocyst culture medium and the effect of peptide derived from blastocyst culture medium on blastocyst formation and viability

Shi

Wang

et al. 2019

Molecular Reproduction Devel

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High-quality in vitro human embryo culture medium can improve the blastocyst formation rate and blastocyst quality and be beneficial for the clinical application of single blastocyst transfer. Mammalian embryos can secrete protein products into the surrounding medium. As a group of bioactive molecules and degraded proteins, peptides have been shown to participate in various biological processes.Using liquid chromatography-tandem mass spectrometry, we performed comparative peptidomic analysis of human culture medium in blastocyst formation and nonblastocyst-formation groups. A total of 201 differentially expressed peptides originating from 157 precursor proteins were identified. Among these, a peptide derived from HERC2 (peptide derived from blastocyst culture medium[PDBCM]) passed through the zona pellucida, was distributed on the perivitelline space, was absent in arrest embryos and highly expressed in high-quality blastocysts compared with low-quality blastocysts, and significantly promoted blastocyst formation in a concentration-dependent manner. These results indicate that PDBCM may be a novel biomarker for predicting blastocyst formation and viability. The mechanism remains unclear and needs to be explored in the future. K E Y W O R D Sbiomarker, blastocyst culture medium, blastocyst formation, peptide derived from blastocyst culture medium, peptidomic analysis *Ji and Shi contributed equally to this study.

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“…In humans, the HERC2 gene locates to chromosome 15 among genes responsible for such disorders as Angelman and Prader-Willi syndromes and Autism spectrum disorders (Ji et al, 1999; Dimitropoulos and Schultz, 2007; Roberts et al, 2014). Recessive mutations in the HERC2 locus are related to symptoms ranging from cognitive delay, ataxia, speech disorders, microcephalia, seizures, facial dysmorphism, hypopigmentation, and other secondary signs such as infections and behavioural alterations (Puffenberger et al, 2012; Harlalka et al, 2013; Neubert et al, 2013; Han et al, 2016; Morice-Picard et al, 2016).…”

Section: Physiological Implicationsmentioning

confidence: 99%

HERCing: Structural and Functional Relevance of the Large HERC Ubiquitin Ligases

et al. 2019

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Homologous to the E6AP carboxyl terminus (HECT) and regulator of chromosome condensation 1 (RCC1)-like domain-containing proteins (HERCs) belong to the superfamily of ubiquitin ligases. HERC proteins are divided into two subfamilies, Large and Small HERCs. Despite their similarities in terms of both structure and domains, these subfamilies are evolutionarily very distant and result from a convergence phenomenon rather than from a common origin. Large HERC genes, HERC1 and HERC2 , are present in most metazoan taxa. They encode very large proteins (approximately 5,000 amino acid residues in a single polypeptide chain) that contain more than one RCC1-like domain as a structural characteristic. Accumulating evidences show that these unusually large proteins play key roles in a wide range of cellular functions which include neurodevelopment, DNA damage repair, and cell proliferation. To better understand the origin, evolution, and function of the Large HERC family, this minireview provides with an integrated overview of their structure and function and details their physiological implications. This study also highlights and discusses how dysregulation of these proteins is associated with severe human diseases such as neurological disorders and cancer.

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Complete loss of function of the ubiquitin ligase HERC2 causes a severe neurodevelopmental phenotype

Cited by 31 publications

References 15 publications

Ferritinophagy/ferroptosis: Iron‐related newcomers in human diseases

Ferritinophagy/ferroptosis: Iron‐related newcomers in human diseases

Peptidomic analysis of blastocyst culture medium and the effect of peptide derived from blastocyst culture medium on blastocyst formation and viability

HERCing: Structural and Functional Relevance of the Large HERC Ubiquitin Ligases

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