Your search keyword '"EIF2AK2"' showing total 31 results

1. Dysregulated RNA editing of EIF2AK2 in polycystic ovary syndrome: clinical relevance and functional implications

Author

Fan-Sheng Kong, Junjie Feng, Jin-Ping Yao, Yinghua Lu, Tao Guo, Meng Sun, Chun-Yan Ren, Yun-Yun Jin, Yaping Ma, and Jian-Huan Chen

Subjects

Polycystic ovary syndrome, RNA editing, EIF2AK2, ADAR, Clinical feature, Peripheral blood, Medicine

Abstract

Abstract Background Polycystic ovary syndrome (PCOS) is a prevalent endocrine disorder affecting women of reproductive ages. Our previous study has implicated a possible link between RNA editing and PCOS, yet the actual role of RNA editing, its association with clinical features, and the underlying mechanisms remain unclear. Methods Ten RNA-Seq datasets containing 269 samples of multiple tissue types, including granulosa cells, T helper cells, placenta, oocyte, endometrial stromal cells, endometrium, and adipose tissues, were retrieved from public databases. Peripheral blood samples were collected from twelve PCOS and ten controls and subjected to RNA-Seq. Transcriptome-wide RNA-Seq data analysis was conducted to identify differential RNA editing (DRE) between PCOS and controls. The functional significance of DRE was evaluated by luciferase reporter assays and overexpression in human HEK293T cells. Dehydroepiandrosterone and lipopolysaccharide were used to stimulate human KGN granulosa cells to evaluate gene expression. Results RNA editing dysregulations across multiple tissues were found to be associated with PCOS in public datasets. Peripheral blood transcriptome analysis revealed 798 DRE events associated with PCOS. Through weighted gene co-expression network analysis, our results revealed a set of hub DRE events in PCOS blood. A DRE event in the eukaryotic translation initiation factor 2-alpha kinase 2 (EIF2AK2:chr2:37,100,559) was associated with PCOS clinical features such as luteinizing hormone (LH) and the ratio of LH over follicle-stimulating hormone. Luciferase assays, overexpression, and knockout of RNA editing enzyme adenosine deaminase RNA specific (ADAR) showed that the ADAR-mediated editing cis-regulated EIF2AK2 expression. EIAF2AK2 showed a higher expression after dehydroepiandrosterone and lipopolysaccharide stimulation, triggering changes in the downstrean MAPK pathway. Conclusions Our study presented the first evidence of cross-tissue RNA editing dysregulation in PCOS and its clinical associations. The dysregulation of RNA editing mediated by ADAR and the disrupted target EIF2AK2 may contribute to PCOS development via the MPAK pathway, underlining such epigenetic mechanisms in the disease.

Published

2024

2. Knockdown of EIF2AK2-OAS1 axis reduces ATP production inducing AMPK phosphorylation to inhibit the malignant behavior of gastric cancer cells.

Author

Lai, Yafang, Wang, Xiaofei, Ma, Jingrong, Du, Chaoqun, Wang, Yuyu, Wang, Yaxin, Yuan, Wenzhao, and Zhao, Mingwei

Subjects

*AMP-activated protein kinases, *STOMACH cancer, *CANCER cells, *ENERGY metabolism, *CELL metabolism, *MITOCHONDRIAL membranes

Abstract

Energy metabolism has always been a hot topic in cancer progression and targeted therapy, and exploring the role of genes in energy metabolic pathways in cancer cells has become key to address this issue. Eukaryotic translation initiation factor 2α kinase 2 (EIF2AK2) plays regulatory roles in cancer and disorders of energy metabolism. Indeed, the role of EIF2AK2 in energy metabolism has been underestimated. The aim of this study is to reveal the expression specificity of EIF2AK2 in gastric cancer (GC) progression and metastasis, and to demonstrate the role of EIF2AK2 in energy metabolism, cytoskeleton, proliferation, death and metastasis pathways in GC cells. Mechanistically, EIF2AK2 overexpression promoted cytoskeleton remodeling and ATP production, mediated cell proliferation and metastasis, upregulated OAS1 expression, decreases p-AMPK expression and inhibited apoptosis in GC cells. Conversely, knockdown of EIF2AK2 resulted in the opposite effect. However, overexpression of OAS1 mediated the upregulation of mitochondrial membrane potential and promoted ATP production and NAD+/NADH ratio, but knockdown of OAS1 inhibited the above effects. In addition, knockdown of OAS1 had no effect on EIF2AK2 expression, but inhibited AMPK and upregulated p-AMPK expression. In conclusion, our study identified EIF2AK2 and OAS1 as previously undescribed regulators of energy metabolism in GC cells. We hypothesized that EIF2AK2-OAS1 axis may regulate energy metabolism and inhibit cellular malignant behavior in cancer cells by affecting ATP production to induce AMPK phosphorylation, suggesting EIF2AK2 as a potential therapeutic target for cancer cell progression. [ABSTRACT FROM AUTHOR]

Published

2024

3. Dysregulated RNA editing of EIF2AK2 in polycystic ovary syndrome: clinical relevance and functional implications.

Author

Kong, Fan-Sheng, Feng, Junjie, Yao, Jin-Ping, Lu, Yinghua, Guo, Tao, Sun, Meng, Ren, Chun-Yan, Jin, Yun-Yun, Ma, Yaping, and Chen, Jian-Huan

Subjects

*RNA editing, *POLYCYSTIC ovary syndrome, *T helper cells, *GENE expression, *GRANULOSA cells

Abstract

Background: Polycystic ovary syndrome (PCOS) is a prevalent endocrine disorder affecting women of reproductive ages. Our previous study has implicated a possible link between RNA editing and PCOS, yet the actual role of RNA editing, its association with clinical features, and the underlying mechanisms remain unclear. Methods: Ten RNA-Seq datasets containing 269 samples of multiple tissue types, including granulosa cells, T helper cells, placenta, oocyte, endometrial stromal cells, endometrium, and adipose tissues, were retrieved from public databases. Peripheral blood samples were collected from twelve PCOS and ten controls and subjected to RNA-Seq. Transcriptome-wide RNA-Seq data analysis was conducted to identify differential RNA editing (DRE) between PCOS and controls. The functional significance of DRE was evaluated by luciferase reporter assays and overexpression in human HEK293T cells. Dehydroepiandrosterone and lipopolysaccharide were used to stimulate human KGN granulosa cells to evaluate gene expression. Results: RNA editing dysregulations across multiple tissues were found to be associated with PCOS in public datasets. Peripheral blood transcriptome analysis revealed 798 DRE events associated with PCOS. Through weighted gene co-expression network analysis, our results revealed a set of hub DRE events in PCOS blood. A DRE event in the eukaryotic translation initiation factor 2-alpha kinase 2 (EIF2AK2:chr2:37,100,559) was associated with PCOS clinical features such as luteinizing hormone (LH) and the ratio of LH over follicle-stimulating hormone. Luciferase assays, overexpression, and knockout of RNA editing enzyme adenosine deaminase RNA specific (ADAR) showed that the ADAR-mediated editing cis-regulated EIF2AK2 expression. EIAF2AK2 showed a higher expression after dehydroepiandrosterone and lipopolysaccharide stimulation, triggering changes in the downstrean MAPK pathway. Conclusions: Our study presented the first evidence of cross-tissue RNA editing dysregulation in PCOS and its clinical associations. The dysregulation of RNA editing mediated by ADAR and the disrupted target EIF2AK2 may contribute to PCOS development via the MPAK pathway, underlining such epigenetic mechanisms in the disease. [ABSTRACT FROM AUTHOR]

Published

2024

4. EIF2AK2 protein targeted activation of AIM2-mediated PANoptosis promotes sepsis-induced acute kidney injury

Author

Siwei Wei, Lei Wu, Zhen Xiang, Xiaoxiao Yang, Dongjie Pei, Liubing Jiang, and Zhen Du

Subjects

Acute kidney injury, AIM2, EIF2AK2, PANoptosis, sepsis, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Background Acute kidney injury (AKI) frequently occurs as a complication of sepsis. PANoptosis refers to a type of inflammatory programmed cell death that exhibits key characteristics of apoptosis, necroptosis, and pyroptosis. Here, we evaluated the role of absent in melanoma 2 (AIM2) and eukaryotic translation initiation factor 2 alpha kinase 2 (EIF2AK2) in septic AKI.Methods A septic AKI model was created through cecal ligation and puncture (CLP), while an in vitro model was developed using lipopolysaccharide (LPS)-stimulated HK2 cells. Hematoxylin and eosin (HE), Periodic acid-Schiff (PAS), and TUNEL staining were conducted to assess kidney injury in mice. Levels of serum creatinine (Scr) and blood urea nitrogen (BUN) were detected by kits. Gene expression was detected utilizing RT-qPCR, and Western blot was used to test protein levels. Immunofluorescence was employed to measure EIF2AK2 and AIM2 expression in mouse kidney tissue. Lactate dehydrogenase (LDH) activity assay was conducted to evaluate cytotoxicity. Co-immunoprecipitation (Co-IP) was performed to verify the binding relationship between EIF2AK2 and AIM2.Results AIM2 expression was increased in the renal tissue of mice subjected to CLP. Activation of the inflammasome and PANoptosis were observed in the renal tissue of CLP mice. AIM2 depletion attenuated PANoptosis in LPS-treated HK-2 cells. Additionally, EIF2AK2 could directly target AIM2, leading to a positive regulation of AIM2 expression. Notably, EIF2AK2 induced PANoptosis through upregulating AIM2 in HK-2 cells stimulated by LPS.Conclusions Our results revealed the important role of EIF2AK2-induced AIM2 upregulation in the activation of PANoptosis during septic AKI.

Published

2024

5. Calreticulin regulates the expression of MMP14 and ADAR1 through EIF2AK2 signaling to promote the proliferation and progression of malignant melanoma cells.

Author

Li LIANG, Jin WANG, Tao GUO, Lijun HUANG, Yanping WU, Rui XU, Tong HUANG, and Binghua MA

Subjects

MELANOMA, CANCER cells, CALRETICULIN, FLUORESCENT probes, ENDOPLASMIC reticulum

Abstract

It has been demonstrated that calreticulin (CALR) is expressed abnormally in various tumors and is involved in the occurrence and development of tumors. In this study, CALR and EIF2AK2 expression was measured in the clinical specimens of 39 patients with melanoma. Then, we constructed knockdown and overexpression cell models of CALR and EIF2AK2 and used wound healing and Transwell assays to observe cell migration and invasion. Apoptosis, EDU, and ROS assays were used to measure cell apoptosis and proliferation, as well as ROS levels. The effect of CALR on endoplasmic reticulum stress was detected using endoplasmic reticulum fluorescent probes. Western blotting was used to detect protein levels of CALR, EIF2AK2, ADAR1, and MMP14. The results indicated that CALR and EIF2AK2 expression levels were significantly higher in human melanoma tissues than in adjacent non-tumor tissue. In addition, we found a correlation between CALR and the expression of EIF2AK2 and MMP14, and the experimental results indicated that overexpression of CALR significantly upregulated the expression of EIF2AK2, MMP14, and ADAR1, while knockdown of CALR inhibited their expression. Notably, the knockdown of EIF2AK2 in the CALR overexpression group blocked the upregulation of MMP14 and ADAR1 expression by CALR, and the knockdown of both CALR and EIF2AK2 significantly inhibited MMP14 and ADAR1 expression. In conclusion, CALR and EIF2AK2 play a promoting role in melanoma progression, and knockdown of CALR and EIF2AK2 may be an effective anti-tumor target, and its mechanism may be through MMP14, ADAR1 signaling. [ABSTRACT FROM AUTHOR]

Published

2024

6. The role of protein kinase R in dystonia.

Author

Dodd, Benjamin and Moon, Stephanie L.

Subjects

*DYSTONIA, *MOVEMENT disorder treatments, *GENE expression, *AUTOPHOSPHORYLATION, *NEURODEGENERATION, *PROTEIN kinases

Abstract

Dystonia is a progressive neurological motor disease with few treatment options and no cure. This review synthesizes the results of recent studies that implicate protein kinase R in mediating the molecular mechanisms of dystonia pathogenesis. Mutations in the PKR gene EIF2AK2 and the PKR activator protein PACT are associated with early-onset generalized dystonia. Protein kinase R (PKR) is important for neuronal function. Genetic depletion or inhibition of PKR is associated with increased long-term potentiation and memory, while also causing neuronal hyper-excitability and seizures in mouse models. PKR also senses double stranded RNA within cells and activates the integrated stress response (ISR). The ISR is a conserved signaling pathway that hinges on controlled translational suppression to remodel gene expression during stress. When PKR is activated through binding double stranded RNA or the PKR activator protein PACT, PKR dimerizes, autophosphorylates, and phosphorylates the translation initiation factor eIF2. Translation suppression by p-eIF2 causes stress granule formation and the upregulation of stress-induced genes. The ISR is thought to drive cellular resilience during acute stress. However, chronic ISR activation is associated with neurological diseases, traumatic brain injury, and aging. Neurodevelopmental and neurodegenerative diseases are associated with mutations in other integrated stress response genes, suggesting a critical role for ISR regulation in neuronal health. A growing body of work suggests the ISR is also dysfunctional in dystonia. Future research investigating the molecular mechanisms of the ISR in dystonia will likely reveal therapeutic targets and treatment strategies for this currently incurable disease. [ABSTRACT FROM AUTHOR]

Published

2023

7. Discovery and identification of EIF2AK2 as a direct key target of berberine for anti-inflammatory effects

Author

Wei Wei, Qingxuan Zeng, Yan Wang, Xixi Guo, Tianyun Fan, Yinghong Li, Hongbin Deng, Liping Zhao, Xintong Zhang, Yonghua Liu, Yulong Shi, Jingyang Zhu, Xican Ma, Yanxiang Wang, Jiandong Jiang, and Danqing Song

Subjects

Berberine, Anti-inflammatory, Target identification, Chemoproteomic technology, Photoaffinity probe, EIF2AK2, Therapeutics. Pharmacology, RM1-950

Abstract

Using chemoproteomic techniques, we first identified EIF2AK2, eEF1A1, PRDX3 and VPS4B as direct targets of berberine (BBR) for its synergistically anti-inflammatory effects. Of them, BBR has the strongest affinity with EIF2AK2 via two ionic bonds, and regulates several key inflammatory pathways through EIF2AK2, indicating the dominant role of EIF2AK2. Also, BBR could subtly inhibit the dimerization of EIF2AK2, rather than its enzyme activity, to selectively modulate its downstream pathways including JNK, NF-κB, AKT and NLRP3, with an advantage of good safety profile. In EIF2AK2 gene knockdown mice, the inhibitory IL-1β, IL-6, IL-18 and TNF-α secretion of BBR was obviously attenuated, confirming an EIF2AK2-dependent anti-inflammatory efficacy. The results highlight the BBR's network mechanism on anti-inflammatory effects in which EIF2AK2 is a key target, and inhibition of EIF2AK2 dimerization has a potential to be a therapeutic strategy against inflammation-related disorders.

Published

2023

8. The role of protein kinase R in dystonia

Author

Benjamin Dodd and Stephanie L. Moon

Subjects

protein kinase R, integrated stress response, EIF2AK2, dystonia, translation regulation, Neurology. Diseases of the nervous system, RC346-429, Diseases of the musculoskeletal system, RC925-935

Abstract

Dystonia is a progressive neurological motor disease with few treatment options and no cure. This review synthesizes the results of recent studies that implicate protein kinase R in mediating the molecular mechanisms of dystonia pathogenesis. Mutations in the PKR gene EIF2AK2 and the PKR activator protein PACT are associated with early-onset generalized dystonia. Protein kinase R (PKR) is important for neuronal function. Genetic depletion or inhibition of PKR is associated with increased long-term potentiation and memory, while also causing neuronal hyper-excitability and seizures in mouse models. PKR also senses double stranded RNA within cells and activates the integrated stress response (ISR). The ISR is a conserved signaling pathway that hinges on controlled translational suppression to remodel gene expression during stress. When PKR is activated through binding double stranded RNA or the PKR activator protein PACT, PKR dimerizes, autophosphorylates, and phosphorylates the translation initiation factor eIF2. Translation suppression by p-eIF2 causes stress granule formation and the upregulation of stress-induced genes. The ISR is thought to drive cellular resilience during acute stress. However, chronic ISR activation is associated with neurological diseases, traumatic brain injury, and aging. Neurodevelopmental and neurodegenerative diseases are associated with mutations in other integrated stress response genes, suggesting a critical role for ISR regulation in neuronal health. A growing body of work suggests the ISR is also dysfunctional in dystonia. Future research investigating the molecular mechanisms of the ISR in dystonia will likely reveal therapeutic targets and treatment strategies for this currently incurable disease.

Published

2023

9. The diagnostic and prognostic implications of PRKRA expression in HBV-related hepatocellular carcinoma

Author

Yi-Min Hu, Ruoxi Ran, Chaoqi Yang, and Song-Mei Liu

Subjects

Hepatitis B virus-related hepatocellular carcinoma (HBV-related HCC), PRKRA, EIF2AK2, Inflammatory cytokines, Biomarker, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Hepatitis B virus (HBV)-related hepatocellular carcinoma (HCC) accounts for more than half of total HCC patients in developing countries. Currently, HBV-related HCC diagnosis and prognosis still lack specific biomarkers. Here, we investigated if PRKRA expression in peripheral blood could be a potential biomarker for the diagnosis/prognosis of HBV-related HCC. Methods The expression of PRKRA in HBV-related HCC was firstly analyzed using TCGA and GEO databases. The results were confirmed in a validation cohort including 152 blood samples from 77 healthy controls and 75 HCC patients, 60 of which were infected with HBV. The potential diagnostic and prognostic values of PRKRA were also evaluated by the area under the receiver operator characteristic curve (AUROC) and Kaplan–Meier method, respectively. Results PRKRA was significantly upregulated in HCC patients, especially in those with HBV infections. In addition, the combination of PRKRA expression in peripheral blood with serum AFP and CEA levels displayed a better diagnostic performance (AUROC = 0.908, 95% CI 0.844–0.972; p

Published

2022

10. A Recurrent De Novo Variant in EIF2AK2 Causes a Hypomyelinating Leukodystrophy.

Author

Macintosh, Julia, Thiffault, Isabelle, Pastinen, Tomi, Sztriha, László, and Bernard, Geneviève

Abstract

De novo pathogenic variants in EIF2AK2 have recently been reported as a novel genetic cause of leukoencephalopathy. Here, we describe a male individual who presented in the first year of life with clinical features resembling Pelizaeus-Merzbacher disease (PMD), including nystagmus, hypotonia, and global developmental delay, and which later progressed to include ataxia and spasticity. Brain MRI at the age of two revealed diffuse hypomyelination. This report adds to the limited number of individuals published and further reinforces de novo variants in EIF2AK2 as a molecular cause of a leukodystrophy that clinically and radiologically resembles PMD. [ABSTRACT FROM AUTHOR]

Published

2023

11. A frameshift mutation in the murine Prkra gene exhibits cerebellar abnormality and reduced eIF2α phosphorylation.

Author

Burnett SB, Culver AM, Simon TA, Rowson T, Frederick K, Palmer K, Murray SA, Davis SW, and Patel RC

Abstract

Mutations in Prkra gene, which encodes PACT/RAX cause early onset primary dystonia DYT-PRKRA, a movement disorder that disrupts coordinated muscle movements. PACT/RAX activates protein kinase R (PKR, aka EIF2AK2) by a direct interaction in response to cellular stressors to mediate phosphorylation of the α subunit of the eukaryotic translation initiation factor 2 (eIF2α). Mice homozygous for a naturally arisen, recessively inherited frameshift mutation, Prkralear-5J exhibit progressive dystonia. In the present study, we investigate the biochemical and developmental consequences of the Prkralear-5J mutation. Our results indicate that the truncated PACT/RAX protein retains its ability to interact with PKR, however, it inhibits PKR activation. Furthermore, mice homozygous for the mutation have abnormalities in the cerebellar development as well as a severe lack of dendritic arborization of Purkinje neurons. Additionally, reduced eIF2α phosphorylation is noted in the cerebellums and Purkinje neurons of the homozygous Prkralear-5J mice. These results indicate that PACT/RAX mediated regulation of PKR activity and eIF2α phosphorylation plays a role in cerebellar development and contributes to the dystonia phenotype resulting from this mutation., (© 2024. Published by The Company of Biologists Ltd.)

Published

2024

12. The diagnostic and prognostic implications of PRKRA expression in HBV-related hepatocellular carcinoma.

Author

Hu, Yi-Min, Ran, Ruoxi, Yang, Chaoqi, and Liu, Song-Mei

Subjects

*BLOOD testing, *HEPATITIS B, *CYTOKINES, *BIOMARKERS, *ALPHA fetoproteins, *GENE expression, *KAPLAN-Meier estimator, *DATA analysis software, *RECEIVER operating characteristic curves, *TUMOR antigens, *HEPATOCELLULAR carcinoma

Abstract

Background: Hepatitis B virus (HBV)-related hepatocellular carcinoma (HCC) accounts for more than half of total HCC patients in developing countries. Currently, HBV-related HCC diagnosis and prognosis still lack specific biomarkers. Here, we investigated if PRKRA expression in peripheral blood could be a potential biomarker for the diagnosis/prognosis of HBV-related HCC. Methods: The expression of PRKRA in HBV-related HCC was firstly analyzed using TCGA and GEO databases. The results were confirmed in a validation cohort including 152 blood samples from 77 healthy controls and 75 HCC patients, 60 of which were infected with HBV. The potential diagnostic and prognostic values of PRKRA were also evaluated by the area under the receiver operator characteristic curve (AUROC) and Kaplan–Meier method, respectively. Results: PRKRA was significantly upregulated in HCC patients, especially in those with HBV infections. In addition, the combination of PRKRA expression in peripheral blood with serum AFP and CEA levels displayed a better diagnostic performance (AUROC = 0.908, 95% CI 0.844–0.972; p < 0.001). Notably, when serum AFP is less than 200 ng/mL, PRKRA expression demonstrated better diagnostic capability. Furthermore, PRKRA expression levels were associated with expression of EIF2AK2 and inflammatory cytokine genes. Conclusions: Triple combination testing of blood PRKRA expression, serum AFP and CEA levels could be a noninvasive strategy for diagnosis; and the elevation of PRKRA expression could predicate poor prognosis for HBV-related HCC. [ABSTRACT FROM AUTHOR]

Published

2022

13. EIF2AK2 protein targeted activation of AIM2 -mediated PANoptosis promotes sepsis-induced acute kidney injury.

Author

Wei S, Wu L, Xiang Z, Yang X, Pei D, Jiang L, and Du Z

Subjects

Animals, Mice, Humans, Male, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Lipopolysaccharides, Kidney pathology, Kidney metabolism, Cell Line, Mice, Inbred C57BL, Inflammasomes metabolism, Necroptosis, Apoptosis, Pyroptosis, Acute Kidney Injury metabolism, Acute Kidney Injury etiology, Sepsis complications, Sepsis metabolism, eIF-2 Kinase metabolism, Disease Models, Animal

Abstract

Background: Acute kidney injury (AKI) frequently occurs as a complication of sepsis. PANoptosis refers to a type of inflammatory programmed cell death that exhibits key characteristics of apoptosis, necroptosis, and pyroptosis. Here, we evaluated the role of absent in melanoma 2 (AIM2) and eukaryotic translation initiation factor 2 alpha kinase 2 (EIF2AK2) in septic AKI., Methods: A septic AKI model was created through cecal ligation and puncture (CLP), while an in vitro model was developed using lipopolysaccharide (LPS)-stimulated HK2 cells. Hematoxylin and eosin (HE), Periodic acid-Schiff (PAS), and TUNEL staining were conducted to assess kidney injury in mice. Levels of serum creatinine (Scr) and blood urea nitrogen (BUN) were detected by kits. Gene expression was detected utilizing RT-qPCR, and Western blot was used to test protein levels. Immunofluorescence was employed to measure EIF2AK2 and AIM2 expression in mouse kidney tissue. Lactate dehydrogenase (LDH) activity assay was conducted to evaluate cytotoxicity. Co-immunoprecipitation (Co-IP) was performed to verify the binding relationship between EIF2AK2 and AIM2., Results: AIM2 expression was increased in the renal tissue of mice subjected to CLP. Activation of the inflammasome and PANoptosis were observed in the renal tissue of CLP mice. AIM2 depletion attenuated PANoptosis in LPS-treated HK-2 cells. Additionally, EIF2AK2 could directly target AIM2, leading to a positive regulation of AIM2 expression. Notably, EIF2AK2 induced PANoptosis through upregulating AIM2 in HK-2 cells stimulated by LPS., Conclusions: Our results revealed the important role of EIF2AK2-induced AIM2 upregulation in the activation of PANoptosis during septic AKI.

Published

2024

14. Possible EIF2AK2‐Associated Stress‐Related Neurological Decompensation with Combined Dystonia and Striatal Lesions.

Author

Waller, Sophie E., Morales‐Briceño, Hugo, Williams, Laura, Mohammad, Shekeeb S., Fellner, Avi, Kumar, Kishore R., Tchan, Michel, and Fung, Victor S.C.

Subjects

*MOVEMENT disorders, *DYSTONIA, *NEUROLOGICAL disorders, *WHOLE genome sequencing, *CORPUS callosum, *BASAL ganglia

Abstract

Background: Variants in EIF2AK2 have been recently associated with a spectrum of neurological disease encompassing isolated dystonia to fever‐related neurological decompensation, movement disorders and leukodystrophy. Case: A 32‐year old patient presented with childhood‐onset episodes of neurological decompensation after febrile illness, progressive anarthria, dystonia and spasticity. The T2/FLAIR MRI showed bilateral posterolateral putamen hyperintensities and white matter changes suggestive of leukodystrophy. Initial extensive metabolic workup and whole genome sequencing (WGS) was unremarkable. Re‐analysis of the WGS data revealed a variant in exon 3 of the EIF2AK2 gene [(NM_001135651.3): c.92C > G (p.Pro31Arg)]. EIF2AK2‐associated disorders should be incorporated into the differential diagnosis of the syndrome of fever‐related neurological decompensation with movement disorders, especially in the presence of abnormal neuroimaging. Literature review: Disease‐causing variants in EIF2AK2 have been reported in 24 individuals from 16 families in the literature to date. Two broad phenotypes have been described, including: (1) childhood‐onset generalized dystonia and a normal brain MRI; and (2) early childhood‐onset developmental delay combined with movement disorders, spasticity, and seizures in some. Notably, 92% of these patients have neurological deterioration after febrile illness or other physiological stress. Hypomyelination or delayed myelination and thin corpus callosum are seen in most patients and lower medullary lessions are common. Basal ganglia lesions have been reported previously in one case. Conclusions: EIF2AK2‐associated disorders should be incorporated into the differential diagnosis of the syndrome of fever‐related neurological decompensation with movement disorders, especially in the presence of abnormal neuroimaging. [ABSTRACT FROM AUTHOR]

Published

2022

15. Heterozygous EIF2AK2 Variant Causes Adolescence‐Onset Generalized Dystonia Partially Responsive to DBS.

Author

Magrinelli, Francesca, Moualek, Dalila, Tazir, Meriem, Pacha, Lamia Ali, Verghese, Alice, Bhatia, Kailash P., Maroofian, Reza, and Houlden, Henry

Subjects

*GENETIC variation, *MULTIPLE system atrophy, *DYSTONIA, *AGENESIS of corpus callosum

Abstract

Heterozygous EIF2AK2 Variant Causes Adolescence-Onset Generalized Dystonia Partially Responsive to DBS The missense variant NM 001135651( I EIF2AK2 i ):c.388G>C (p.Gly130Arg) was detected in the heterozygous state in a 28-year-old Algerian male who underwent whole-exome sequencing (WES) for adolescence-onset generalized dystonia with leg involvement.6 He was healthy until age 17, when he presented with dystonic posturing of the first two left fingers. [Extracted from the article]

Published

2022

16. TRIM28 functions as a negative regulator of aggresome formation.

Author

Chang, Jeeyoon, Hwang, Hyun Jung, Kim, Byungju, Choi, Yeon-Gil, Park, Joori, Park, Yeonkyoung, Lee, Ban Seok, Park, Heedo, Yoon, Min Ji, Woo, Jae-Sung, Kim, Chungho, Park, Man-Seong, Lee, Jong-Bong, and Kim, Yoon Ki

Subjects

SMALL interfering RNA, INFLUENZA A virus, HISTONE deacetylase, DOUBLE-stranded RNA, INFLUENZA viruses, PROTEIN kinases

Abstract

Selective recognition and elimination of misfolded polypeptides are crucial for protein homeostasis. When the ubiquitin-proteasome system is impaired, misfolded polypeptides tend to form small cytosolic aggregates and are transported to the aggresome and eventually eliminated by the autophagy pathway. Despite the importance of this process, the regulation of aggresome formation remains poorly understood. Here, we identify TRIM28/TIF1β/KAP1 (tripartite motif containing 28) as a negative regulator of aggresome formation. Direct interaction between TRIM28 and CTIF (cap binding complex dependent translation initiation factor) leads to inefficient aggresomal targeting of misfolded polypeptides. We also find that either treatment of cells with poly I:C or infection of the cells by influenza A viruses triggers the phosphorylation of TRIM28 at S473 in a way that depends on double-stranded RNA-activated protein kinase. The phosphorylation promotes association of TRIM28 with CTIF, inhibits aggresome formation, and consequently suppresses viral proliferation. Collectively, our data provide compelling evidence that TRIM28 is a negative regulator of aggresome formation. Abbreviations: BAG3: BCL2-associated athanogene 3; CTIF: CBC-dependent translation initiation factor; CED: CTIF-EEF1A1-DCTN1; DCTN1: dynactin subunit 1; EEF1A1: eukaryotic translation elongation factor 1 alpha 1; EIF2AK2: eukaryotic translation initiation factor 2 alpha kinase 2; HDAC6: histone deacetylase 6; IAV: influenza A virus; IP: immunoprecipitation; PLA: proximity ligation assay; polypeptidyl-puro: polypeptidyl-puromycin; qRT-PCR: quantitative reverse-transcription PCR; siRNA: small interfering RNA [ABSTRACT FROM AUTHOR]

Published

2021

17. A frameshift mutation in the murine Prkra gene causes dystonia and exhibits abnormal cerebellar development and reduced eIF2α phosphorylation.

Author

Burnett SB, Culver AM, Simon TA, Rowson T, Frederick K, Palmer K, Murray SA, Davis SW, and Patel RC

Abstract

Mutations in Prkra gene, which encodes PACT/RAX cause early onset primary dystonia DYT-PRKRA, a movement disorder that disrupts coordinated muscle movements. PACT/RAX activates protein kinase R (PKR, aka EIF2AK2) by a direct interaction in response to cellular stressors to mediate phosphorylation of the α subunit of the eukaryotic translation initiation factor 2 (eIF2α). Mice homozygous for a naturally arisen, recessively inherited frameshift mutation, Prkra lear-5J exhibit progressive dystonia. In the present study, we investigate the biochemical and developmental consequences of the Prkra lear-5J mutation. Our results indicate that the truncated PACT/RAX protein retains its ability to interact with PKR, however, it inhibits PKR activation. Furthermore, mice homozygous for the mutation have abnormalities in the cerebellar development as well as a severe lack of dendritic arborization of Purkinje neurons. Additionally, reduced eIF2α phosphorylation is noted in the cerebellums and Purkinje neurons of the homozygous Prkra lear-5J mice. These results indicate that PACT/RAX mediated regulation of PKR activity and eIF2α phosphorylation plays a role in cerebellar development and contributes to the dystonia phenotype resulting from this mutation., Competing Interests: Financial Disclosure/Conflict of Interest: The authors declare no financial disclosures or conflicts of interest.

Published

2024

18. Protein Kinase R in Bacterial Infections: Friend or Foe?

Author

Robin Smyth and Jim Sun

Subjects

Protein Kinase R, bacterial infection, macrophage signaling, antibacterial defense, EIF2AK2, cell death, Immunologic diseases. Allergy, RC581-607

Abstract

The global antimicrobial resistance crisis poses a significant threat to humankind in the coming decades. Challenges associated with the development of novel antibiotics underscore the urgent need to develop alternative treatment strategies to combat bacterial infections. Host-directed therapy is a promising new therapeutic strategy that aims to boost the host immune response to bacteria rather than target the pathogen itself, thereby circumventing the development of antibiotic resistance. However, host-directed therapy depends on the identification of druggable host targets or proteins with key functions in antibacterial defense. Protein Kinase R (PKR) is a well-characterized human kinase with established roles in cancer, metabolic disorders, neurodegeneration, and antiviral defense. However, its role in antibacterial defense has been surprisingly underappreciated. Although the canonical role of PKR is to inhibit protein translation during viral infection, this kinase senses and responds to multiple types of cellular stress by regulating cell-signaling pathways involved in inflammation, cell death, and autophagy – mechanisms that are all critical for a protective host response against bacterial pathogens. Indeed, there is accumulating evidence to demonstrate that PKR contributes significantly to the immune response to a variety of bacterial pathogens. Importantly, there are existing pharmacological modulators of PKR that are well-tolerated in animals, indicating that PKR is a feasible target for host-directed therapy. In this review, we provide an overview of immune cell functions regulated by PKR and summarize the current knowledge on the role and functions of PKR in bacterial infections. We also review the non-canonical activators of PKR and speculate on the potential mechanisms that trigger activation of PKR during bacterial infection. Finally, we provide an overview of existing pharmacological modulators of PKR that could be explored as novel treatment strategies for bacterial infections.

Published

2021

19. Protein Kinase R in Bacterial Infections: Friend or Foe?

Author

Smyth, Robin and Sun, Jim

Subjects

BACTERIAL diseases, PROTEIN kinases, VIRUS diseases, CELL physiology, DRUG resistance in bacteria, BACTERIAL vaccines, ANTIBIOTICS assay

Abstract

The global antimicrobial resistance crisis poses a significant threat to humankind in the coming decades. Challenges associated with the development of novel antibiotics underscore the urgent need to develop alternative treatment strategies to combat bacterial infections. Host-directed therapy is a promising new therapeutic strategy that aims to boost the host immune response to bacteria rather than target the pathogen itself, thereby circumventing the development of antibiotic resistance. However, host-directed therapy depends on the identification of druggable host targets or proteins with key functions in antibacterial defense. Protein Kinase R (PKR) is a well-characterized human kinase with established roles in cancer, metabolic disorders, neurodegeneration, and antiviral defense. However, its role in antibacterial defense has been surprisingly underappreciated. Although the canonical role of PKR is to inhibit protein translation during viral infection, this kinase senses and responds to multiple types of cellular stress by regulating cell-signaling pathways involved in inflammation, cell death, and autophagy – mechanisms that are all critical for a protective host response against bacterial pathogens. Indeed, there is accumulating evidence to demonstrate that PKR contributes significantly to the immune response to a variety of bacterial pathogens. Importantly, there are existing pharmacological modulators of PKR that are well-tolerated in animals, indicating that PKR is a feasible target for host-directed therapy. In this review, we provide an overview of immune cell functions regulated by PKR and summarize the current knowledge on the role and functions of PKR in bacterial infections. We also review the non-canonical activators of PKR and speculate on the potential mechanisms that trigger activation of PKR during bacterial infection. Finally, we provide an overview of existing pharmacological modulators of PKR that could be explored as novel treatment strategies for bacterial infections. [ABSTRACT FROM AUTHOR]

Published

2021

20. EIF2AK2 selectively regulates the gene transcription in immune response and histones associated with systemic lupus erythematosus.

Author

Ge, Lan, Zhang, Yuhong, Zhao, Xingwang, Wang, Juan, Zhang, Yu, Wang, Qi, Yu, Han, Zhang, Yi, and You, Yi

Subjects

*SYSTEMIC lupus erythematosus, *GENES, *IMMUNE response, *HISTONES, *HELA cells, *MITOGENS

Abstract

• Overexpression of EIF2AK2 (Eukaryotic Translation Initiation Factor 2 Alpha Kinase 2) promotes apoptosis in HeLa cells. • EIF2AK2 extensively regulates a number of genes transcription. • EIF2AK2 selectively down-regulates the transcription of histone genes and innate immune response genes. • EIF2AK2-regulated network is involved in a number of transcription factors. PKR, also known as EIF2AK2, is an IFN-stimulated gene (ISG) and shows a higher expression in probands with systemic lupus erythematosus (SLE), which is likely responsible for the impaired translational and proliferative responses to mitogens in T cells from SLE patients. In this study, we overexpressed EIF2AK2 in HeLa cells to study EIF2AK2-regulated genes using RNA-seq technology, followed by bioinformatic analysis of target genes of EIF2AK2-regulated transcriptional factors (TFs). Overexpression of EIF2AK2 promotes HeLa cell apoptosis. EIF2AK2 selectively represses the transcription of histone protein genes associated with SLE, immune response genes and TF genes, which was validated by RT-qPCR experiments. Analysis of motifs overrepresented in the promoter regions of EIF2AK2-regulated genes revealed eighteen EIF2AK2-regulated TFs involved in establishing the EIF2AK2 network. Eight out of these predicted EIF2AK2-regulated TFs were further verified by RT-qPCR selectively in both HeLa and Jurkat cells, and most such as HEY2, TFEC, BATF2, GATA3 and ATF3 and FOXO6 are known to regulate immune response. Our results suggest that the dsRNA-dependent kinase EIF2AK2 selectively regulates the transcription of immune response and SLE-associated histone protein genes, and such a selectivity is likely to be operated by EIF2AK2-targeted TFs. The EIF2AK2-TFs axis potentially offers new therapeutic targets for counteracting immunological disease in the future. [ABSTRACT FROM AUTHOR]

Published

2021

21. Inflammation kinase PKR phosphorylates α-synuclein and causes α-synuclein-dependent cell death

Author

Lasse Reimer, Louise Buur Vesterager, Cristine Betzer, Jin Zheng, Lærke Dalsgaard Nielsen, Rikke Hahn Kofoed, Louise Berkhoudt Lassen, Ulrik Bølcho, Søren Riis Paludan, Karina Fog, and Poul Henning Jensen

Subjects

Neurodegeneration, Synucleinopathies, Alpha-Synuclein, PKR, EIF2AK2, Phosphorylation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Parkinson's disease, dementia with Lewy bodies, and multiple system atrophy comprise a group of neurodegenerative diseases termed synucleinopathies. Synucleinopathie are, characterized by presence of inclusion bodies in degenerating brain cells which contain aggregated α-synuclein phosphorylated on Ser129. Although the inflammation-associated serine-threonine kinase, PKR (EIF2AK2), promotes cellular protection against infection, we demonstrate a pro-degenerative role of activated PKR in an α-synuclein-dependent cell model of multiple system atrophy, where inhibition and silencing of PKR decrease cellular degeneration. In vitro phosphorylation demonstrates that PKR can directly bind and phosphorylate monomeric and filamenteous α-synuclein on Ser129. Inhibition and knockdown of PKR reduce Ser129 phosphorylation in different models (SH-SY5Y ASYN cells, OLN-AS7 cells, primary mouse hippocampal neurons, and acute brain slices), while overexpression of constitutively active PKR increases Ser129 α-syn phosphorylation. Treatment with pre-formed α-synuclein fibrils, proteostatic stress-promoting MG-132 and known PKR activators, herpes simplex virus-1-∆ICP34.5 and LPS, as well as PKR inducer, IFN-β-1b, lead to increased levels of phosphorylated Ser129 α-synuclein that is completely blocked by simultaneous PKR inhibition. These results reveal a direct link between PKR and the phosphorylation and toxicity of α-synuclein, and they support that neuroinflammatory processes play a role in modulating the pathogenicity of α-synuclein.

Published

2018

22. Heterozygous <scp> EIF2AK2 </scp> Variant Causes Adolescence‐Onset Generalized Dystonia Partially Responsive to <scp>DBS</scp>

Author

Henry Houlden, Francesca Magrinelli, Reza Maroofian, Lamia Ali Pacha, Alice Verghese, Dalila Moualek, Meriem Tazir, and Kailash P. Bhatia

Subjects

Dystonia, Deep brain stimulation, Movement disorders, business.industry, medicine.medical_treatment, EIF2AK2, medicine.disease, deep brain stimulation, Neurology, Generalized dystonia, movement disorders, Medicine, genetics, dystonia, Neurology (clinical), medicine.symptom, business, Neuroscience

Published

2021

23. Inflammation kinase PKR phosphorylates α-synuclein and causes α-synuclein-dependent cell death.

Author

Reimer, Lasse, Vesterager, Louise Buur, Betzer, Cristine, Zheng, Jin, Nielsen, Lærke Dalsgaard, Kofoed, Rikke Hahn, Lassen, Louise Berkhoudt, Bølcho, Ulrik, Paludan, Søren Riis, Fog, Karina, and Jensen, Poul Henning

Subjects

*CELL death, *THREONINE, *PHOSPHORYLATION, *HIPPOCAMPAL innervation, *HERPESVIRUS diseases

Abstract

Parkinson's disease, dementia with Lewy bodies, and multiple system atrophy comprise a group of neurodegenerative diseases termed synucleinopathies. Synucleinopathie are, characterized by presence of inclusion bodies in degenerating brain cells which contain aggregated α-synuclein phosphorylated on Ser129. Although the inflammation-associated serine-threonine kinase, PKR (EIF2AK2), promotes cellular protection against infection, we demonstrate a pro-degenerative role of activated PKR in an α-synuclein-dependent cell model of multiple system atrophy, where inhibition and silencing of PKR decrease cellular degeneration. In vitro phosphorylation demonstrates that PKR can directly bind and phosphorylate monomeric and filamenteous α-synuclein on Ser129. Inhibition and knockdown of PKR reduce Ser129 phosphorylation in different models (SH-SY5Y ASYN cells, OLN-AS7 cells, primary mouse hippocampal neurons, and acute brain slices), while overexpression of constitutively active PKR increases Ser129 α-syn phosphorylation. Treatment with pre-formed α-synuclein fibrils, proteostatic stress-promoting MG-132 and known PKR activators, herpes simplex virus-1-∆ICP34.5 and LPS, as well as PKR inducer, IFN-β-1b, lead to increased levels of phosphorylated Ser129 α-synuclein that is completely blocked by simultaneous PKR inhibition. These results reveal a direct link between PKR and the phosphorylation and toxicity of α-synuclein, and they support that neuroinflammatory processes play a role in modulating the pathogenicity of α-synuclein. [ABSTRACT FROM AUTHOR]

Published

2018

24. Unravelling the structural interactions between PKR kinase domain and its small molecule inhibitors using computational approaches.

Author

Barage, Sagar, Kulkarni, Abhijeet, Pal, Jayanta K., and Joshi, Manali

Subjects

*PROTEIN kinases, *APOPTOSIS, *NEURODEGENERATION, *MOLECULAR docking, *ADENINE, *HYDROGEN bonding, *FREE energy (Thermodynamics), *PROMISCUITY

Abstract

The RNA-dependent protein kinase (PKR), an eIF2α kinase plays an important role in anti-viral response, apoptosis and cell survival. It is also implicated to play a role in several cancers, metabolic and neurodegenerative disorders. A few ATP competitive inhibitors of the PKR have been reported in the literature with promising results in vitro and in vivo . The aim of this study was to unravel the structural interactions between these inhibitors and the PKR kinase domain using molecular simulations and docking. Our study reveals that the reported inhibitors bind in the adenine pocket and form hydrogen bonds with the hinge region and vdW interactions with non-polar residues in the binding site. The most potent inhibitor has several favorable interactions with the binding site and induces the P-loop to fold inward, creating a significant hydrophobic enclosure for itself. The computed binding free energies of these inhibitors are in accord with experimental data (IC 50 ). Strategies to design potent and selective PKR inhibitors are discussed to overcome the reported promiscuity. [ABSTRACT FROM AUTHOR]

Published

2017

25. The protein activator of protein kinase R, PACT/RAX, negatively regulates protein kinase R during mouse anterior pituitary development.

Author

Dickerman, Benjamin K., White, Christine L., Kessler, Patricia M., Sadler, Anthony J., Williams, Bryan R. G., and Sen, Ganes C.

Subjects

*PROTEIN kinases, *DOUBLE-stranded RNA, *ANTERIOR pituitary gland, *RNA-binding proteins, *TRANSLATION initiation factors (Biochemistry), *LABORATORY mice, *DISEASES

Abstract

The murine double-stranded RNA-binding protein termed protein kinase R (PKR)-associated protein X (RAX) and the human homolog, protein activator of PKR (PACT), were originally characterized as activators of PKR. Mice deficient in RAX show reproductive and developmental defects, including reduced body size, craniofacial defects and anterior pituitary hypoplasia. As these defects are not observed in PKR-deficient mice, the phenotype has been attributed to PKR-independent activities of RAX. Here we further investigated the involvement of PKR in the physiological function of RAX, by generating rax -/- mice deficient in PKR, or carrying a kinase-inactive mutant of PKR (K271R) or an unphosphorylatable mutant of the PKR substrate eukaryotic translation initiation factor α a subunit (eIF2α) (S51A). Ablating PKR expression rescued the developmental and reproductive deficiencies in rax -/- mice. Generating rax -/- mice with a kinase-inactive mutant of PKR resulted in similar rescue, confirming that the rax -/- defects are PKR dependent; specifically that the kinase activity of PKR was required for these defects. Moreover, generating rax -/- mice that were heterozygous for an unphosphorylatable mutant eIF2a provides partial rescue of the rax -/- defect, consistent with mutation of one copy of the Eif2s1 gene. These observations were further investigated in vitro by reducing RAX expression in anterior pituitary cells, resulting in increased PKR activity and induction of the PKR-regulated cyclin-dependent kinase inhibitor p21WAF1/CIP1. These results demonstrate that PKR kinase activity is required for onset of the rax -/- phenotype, implying an unexpected function for RAX as a negative regulator of PKR in the context of postnatal anterior pituitary tissue, and identify a critical role for the regulation of PKR activity for normal development. [ABSTRACT FROM AUTHOR]

Published

2015

26. Integrated Transcriptional and Proteomic Analysis of Growth Hormone Suppression Mediated by Trichothecene T-2 Toxin in Rat GH3 Cells.

Author

Dan Wan, Xu Wang, Qinghua Wu, Pingping Lin, Yuanhu Pan, Sattar, Adeel, Lingli Huang, Ahmad, Ijaz, Yuanyuan Zhang, and Zonghui Yuan

Subjects

*GENETIC transcription, *PROTEOMICS, *TRICHOTHECENES, *SOMATOTROPIN, *IMMUNOSUPPRESSION, *TOXINS, *LABORATORY rats

Abstract

Chronic exposure to trichothecenes is known to disturb insulin-like growth factor 1 and signaling of insulin and leptin hormones and causes considerable growth retardation in animals. However, limited information was available on mechanisms underlying trichothecene-induced growth retardation. In this study, we employed an integrated transcriptomics, proteomics, and RNA interference (RNAi) approach to study themolecularmechanisms underlying trichothecene cytotoxicity in rat pituitary adenoma GH3 cells. Our results showed that trichothecenes suppressed the synthesis of growth hormone 1 (Gh1) and inhibited the eukaryotic transcription and translation initiation by suppressing aminoacyl-tRNA synthetases transcription, inducing eukaryotic translation initiation factor 2-alpha kinase 2 (EIF2AK2) and reducing eukaryotic translation initiation factor 5 a. The sulfhydryl oxidases, protein disulfide isomerase, and heat shock protein 90 (were greatly reduced, which resulted in adverse regulation of protein processing and folding. Differential genes and proteins associated with a decline in energymetabolism and cell cycle arrest were also found in our study. However, use of RNAi to interfere with hemopoietic cell kinase (Hck) and EIF2AK2 transcriptions or use of chemical inhibitors ofMAPK, p38, Ras, and JNK partially reversed the reduction of Gh1 levels induced by trichothecenes. It indicated that the activation of MAPKs, Hck, and EIF2AK2 were important for trichothecene-induced growth hormone suppression. Considering the potential hazards of exposure to trichothecenes, our findings could help to improve our understanding regarding human and animal health implications. [ABSTRACT FROM AUTHOR]

Published

2015

27. Double stranded RNA activated EIF2 α kinase (EIF2AK2; PKR) is associated with Alzheimer's disease

Author

Bullido, María J., Martínez-García, Ana, Tenorio, Raquel, Sastre, Isabel, Muñoz, David G., Frank, Ana, and Valdivieso, Fernando

Subjects

*ALZHEIMER'S disease, *GENES, *DISEASES in older people, *INFECTION

Abstract

Abstract: Sporadic Alzheimer''s disease (AD) appears to be the consequence of the interaction between combinations of genes and environmental factors (for example virus infections). To test this hypothesis, we are examining human genes relevant to herpes simplex virus type 1 (HSV-1) infection via genetic association studies in AD case–control samples. Recently, we found that a variant in TAP2, a major target used by HSV-1 to evade immune surveillance, is associated with AD. The present work analyses another gene involved in the host cell response to HSV-1, EIF2AK2 (eukaryotic translation initiation factor 2-alpha kinase 2; coding for PKR); PKR mediates the virus-induced shut-off of translation, and levels of activated PKR are high in the brains of AD patients. An EIF2AK2 SNP (rs2254958) located in the 5′-UTR region within an exonic splicing enhancer was found to be associated with AD. More specifically: the C allele was more commonly found in the patients and, compared to non-CC genotypes, the CC homozygotes showed earlier (around 3.3 years) onset of AD, especially in the absence of the APOE4 allele. These results further support the hypothesis that variants of human genes participating in HSV-1 infection modulate the susceptibility and/or clinical manifestations of AD. [Copyright &y& Elsevier]

Published

2008

28. Possible EIF2AK2 -Associated Stress-Related Neurological Decompensation with Combined Dystonia and Striatal Lesions.

Author

Waller SE, Morales-Briceño H, Williams L, Mohammad SS, Fellner A, Kumar KR, Tchan M, and Fung VSC

Abstract

Background: Variants in EIF2AK2 have been recently associated with a spectrum of neurological disease encompassing isolated dystonia to fever-related neurological decompensation, movement disorders and leukodystrophy., Case: A 32-year old patient presented with childhood-onset episodes of neurological decompensation after febrile illness, progressive anarthria, dystonia and spasticity. The T2/FLAIR MRI showed bilateral posterolateral putamen hyperintensities and white matter changes suggestive of leukodystrophy. Initial extensive metabolic workup and whole genome sequencing (WGS) was unremarkable. Re-analysis of the WGS data revealed a variant in exon 3 of the EIF2AK2 gene [ (NM&#95;001135651.3): c.92C > G (p.Pro31Arg)]. EIF2AK2 -associated disorders should be incorporated into the differential diagnosis of the syndrome of fever-related neurological decompensation with movement disorders, especially in the presence of abnormal neuroimaging., Literature Review: Disease-causing variants in EIF2AK2 have been reported in 24 individuals from 16 families in the literature to date. Two broad phenotypes have been described, including: (1) childhood-onset generalized dystonia and a normal brain MRI; and (2) early childhood-onset developmental delay combined with movement disorders, spasticity, and seizures in some. Notably, 92% of these patients have neurological deterioration after febrile illness or other physiological stress. Hypomyelination or delayed myelination and thin corpus callosum are seen in most patients and lower medullary lessions are common. Basal ganglia lesions have been reported previously in one case., Conclusions: EIF2AK2 -associated disorders should be incorporated into the differential diagnosis of the syndrome of fever-related neurological decompensation with movement disorders, especially in the presence of abnormal neuroimaging., Competing Interests: The authors report no specific grants for this research financial disclosure. No conflicts of interest are reported by the authors., (© 2021 International Parkinson and Movement Disorder Society.)

Published

2021

29. Heterozygous EIF2AK2 Variant Causes Adolescence-Onset Generalized Dystonia Partially Responsive to DBS.

Author

Magrinelli F, Moualek D, Tazir M, Pacha LA, Verghese A, Bhatia KP, Maroofian R, and Houlden H

Published

2021

30. Inflammation kinase PKR phosphorylates α-synuclein and causes α-synuclein-dependent cell death

Author

Rikke Hahn Kofoed, Louise Buur Vesterager, Ulrik Bølcho, Jin Zheng, Poul Henning Jensen, Lærke Dalsgaard Nielsen, Søren R. Paludan, Cristine Betzer, Lasse Reimer, Louise Berkhoudt Lassen, and Karina Fog

Subjects

0301 basic medicine, Programmed cell death, Synucleinopathies, viruses, Mice, Transgenic, environment and public health, Hippocampus, Inclusion bodies, lcsh:RC321-571, 03 medical and health sciences, chemistry.chemical_compound, Mice, eIF-2 Kinase, 0302 clinical medicine, Organ Culture Techniques, medicine, Animals, Humans, Neurodegeneration, Phosphorylation, Rats, Wistar, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Protein Kinase Inhibitors, Cell Line, Transformed, Alpha-synuclein, Inflammation, Mice, Knockout, Cell Death, Kinase, virus diseases, PKR, biochemical phenomena, metabolism, and nutrition, EIF2AK2, medicine.disease, Protein kinase R, Cell biology, Rats, Mice, Inbred C57BL, enzymes and coenzymes (carbohydrates), 030104 developmental biology, HEK293 Cells, Neurology, chemistry, Animals, Newborn, alpha-Synuclein, 030217 neurology & neurosurgery

Abstract

Parkinson's disease, dementia with Lewy bodies, and multiple system atrophy comprise a group of neurodegenerative diseases termed synucleinopathies. Synucleinopathie are, characterized by presence of inclusion bodies in degenerating brain cells which contain aggregated α-synuclein phosphorylated on Ser129. Although the inflammation-associated serine-threonine kinase, PKR (EIF2AK2), promotes cellular protection against infection, we demonstrate a pro-degenerative role of activated PKR in an α-synuclein-dependent cell model of multiple system atrophy, where inhibition and silencing of PKR decrease cellular degeneration. In vitro phosphorylation demonstrates that PKR can directly bind and phosphorylate monomeric and filamenteous α-synuclein on Ser129. Inhibition and knockdown of PKR reduce Ser129 phosphorylation in different models (SH-SY5Y ASYN cells, OLN-AS7 cells, primary mouse hippocampal neurons, and acute brain slices), while overexpression of constitutively active PKR increases Ser129 α-syn phosphorylation. Treatment with pre-formed α-synuclein fibrils, proteostatic stress-promoting MG-132 and known PKR activators, herpes simplex virus-1-∆ICP34.5 and LPS, as well as PKR inducer, IFN-β-1b, lead to increased levels of phosphorylated Ser129 α-synuclein that is completely blocked by simultaneous PKR inhibition. These results reveal a direct link between PKR and the phosphorylation and toxicity of α-synuclein, and they support that neuroinflammatory processes play a role in modulating the pathogenicity of α-synuclein. Parkinson's disease, dementia with Lewy bodies, and multiple system atrophy comprise a group of neurodegenerative diseases termed synucleinopathies. Synucleinopathie are, characterized by presence of inclusion bodies in degenerating brain cells which contain aggregated α-synuclein phosphorylated on Ser129. Although the inflammation-associated serine-threonine kinase, PKR (EIF2AK2), promotes cellular protection against infection, we demonstrate a pro-degenerative role of activated PKR in an α-synuclein-dependent cell model of multiple system atrophy, where inhibition and silencing of PKR decrease cellular degeneration. In vitro phosphorylation demonstrates that PKR can directly bind and phosphorylate monomeric and filamenteous α-synuclein on Ser129. Inhibition and knockdown of PKR reduce Ser129 phosphorylation in different models (SH-SY5Y ASYN cells, OLN-AS7 cells, primary mouse hippocampal neurons, and acute brain slices), while overexpression of constitutively active PKR increases Ser129 α-syn phosphorylation. Treatment with pre-formed α-synuclein fibrils, proteostatic stress-promoting MG-132 and known PKR activators, herpes simplex virus-1-∆ICP34.5 and LPS, as well as PKR inducer, IFN-β-1b, lead to increased levels of phosphorylated Ser129 α-synuclein that is completely blocked by simultaneous PKR inhibition. These results reveal a direct link between PKR and the phosphorylation and toxicity of α-synuclein, and they support that neuroinflammatory processes play a role in modulating the pathogenicity of α-synuclein.

Published

2017

31. Integrated Transcriptional and Proteomic Analysis of Growth Hormone Suppression Mediated by Trichothecene T-2 Toxin in Rat GH3 Cells.

Author

Wan D, Wang X, Wu Q, Lin P, Pan Y, Sattar A, Huang L, Ahmad I, Zhang Y, and Yuan Z

Subjects

Amino Acyl-tRNA Synthetases antagonists & inhibitors, Animals, Apoptosis drug effects, Cell Line, Cell Survival drug effects, HSP90 Heat-Shock Proteins antagonists & inhibitors, Oxidoreductases antagonists & inhibitors, Peptide Initiation Factors antagonists & inhibitors, Protein Biosynthesis drug effects, Protein Disulfide-Isomerases antagonists & inhibitors, RNA Interference drug effects, RNA-Binding Proteins antagonists & inhibitors, Rats, T-2 Toxin pharmacology, Transcription, Genetic drug effects, eIF-2 Kinase antagonists & inhibitors, Eukaryotic Translation Initiation Factor 5A, Gene Expression Profiling, Growth Hormone antagonists & inhibitors, Proteomics, T-2 Toxin analogs & derivatives

Abstract

Chronic exposure to trichothecenes is known to disturb insulin-like growth factor 1 and signaling of insulin and leptin hormones and causes considerable growth retardation in animals. However, limited information was available on mechanisms underlying trichothecene-induced growth retardation. In this study, we employed an integrated transcriptomics, proteomics, and RNA interference (RNAi) approach to study the molecular mechanisms underlying trichothecene cytotoxicity in rat pituitary adenoma GH3 cells. Our results showed that trichothecenes suppressed the synthesis of growth hormone 1 (Gh1) and inhibited the eukaryotic transcription and translation initiation by suppressing aminoacyl-tRNA synthetases transcription, inducing eukaryotic translation initiation factor 2-alpha kinase 2 (EIF2AK2) and reducing eukaryotic translation initiation factor 5 a. The sulfhydryl oxidases , protein disulfide isomerase,and heat shock protein 90 (were greatly reduced, which resulted in adverse regulation of protein processing and folding. Differential genes and proteins associated with a decline in energy metabolism and cell cycle arrest were also found in our study. However, use of RNAi to interfere with hemopoietic cell kinase (Hck) and EIF2AK2 transcriptions or use of chemical inhibitors of MAPK, p38, Ras, and JNK partially reversed the reduction of Gh1 levels induced by trichothecenes. It indicated that the activation of MAPKs, Hck, and EIF2AK2 were important for trichothecene-induced growth hormone suppression. Considering the potential hazards of exposure to trichothecenes, our findings could help to improve our understanding regarding human and animal health implications., (© The Author 2015. Published by Oxford University Press on behalf of the Society of Toxicology. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)

Published

2015