The PINK1 p.I368N mutation affects protein stability and ubiquitin kinase activity

Ando, Maya; Fiesel, Fabienne C.; Hudec, Roman; Caulfield, Thomas R.; Ogaki, Kotaro; Górka-Skoczylas, Paulina; Koziorowski, Dariusz; Friedman, Andrzej; Chen, Li; Dawson, Valina L.; Dawson, Ted M.; Bu, Guojun; Ross, Owen A.; Wszołek, Zbigniew K.; Springer, Wolfdieter

doi:10.1186/s13024-017-0174-z

Cited by 68 publications

(59 citation statements)

References 82 publications

(117 reference statements)

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“…Thus we examined the local residues and determined an electrostatic calculation may be useful to explain the change in function. The molecular model for the full structure and its truncated form are given (Figure , Videos ) using our established state‐of‐the‐art methods (Abdul‐Hay et al., ; Ando et al., ; Caulfield, ; Caulfield & Devkota, ; Caulfield, Fiesel, & Springer, ; Caulfield & Medina‐Franco, ; Caulfield et al., , ; Fiesel et al., , ; Lopez‐Vallejo et al., ; Puschmann et al., ; Zhang et al., ).…”

Section: Resultsmentioning

confidence: 99%

Protein molecular modeling techniques investigating novel TAB2 variant R347X causing cardiomyopathy and congenital heart defects in multigenerational family

Caulfield

Richter

Brown

et al. 2018

Molec Gen & Gen Med

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BackgroundHaploinsufficiency of TAB2 is known to cause congenital heart defects and cardiomyopathy due to its important roles in cardiovascular tissue, both during development and through adult life. We report a sibling pair displaying adult‐onset cardiomyopathy, hypermobility, and mild myopia. Our proband, a 39‐year‐old male, presents only with the above symptoms, while his 36‐year‐old sister was also notable for a ventricular septal defect in her infancy.MethodsWhole‐exome sequencing was utilized to identify the molecular basis of the phenotype found in two siblings. A molecular modeling technique that takes advantage of conformational sampling advances (Maxwell's demon molecular dynamics and Monte Carlo) were used to make a model of the mutant variant for comparative analytics to the wild‐type.ResultsExome sequencing revealed a novel, heterogeneous pathogenic variant in TAB2, c.1039 C>T (p.R347X), that was present in both individuals. This pathogenic variant removes just over half the residues from the TAB2 protein and severely impacts its functional ability, which we describe in detail.ConclusionsAnalysis of the proband's family showed a history of cardiomyopathy, but no congenital heart defects or connective tissue disease. We highlight the heterogeneity in phenotype of TAB2 pathogenic variants and confirm the pathogenicity of this new variant through neoteric protein modeling techniques.

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Section: Resultsmentioning

confidence: 99%

Protein molecular modeling techniques investigating novel TAB2 variant R347X causing cardiomyopathy and congenital heart defects in multigenerational family

Caulfield

Richter

Brown

et al. 2018

Molec Gen & Gen Med

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“…Therefore, the ROS/PINK1/Parkin pathway is the main regulatory pathway of mitophagy, and Parkin's translocation to mitochondria is the most critical event. 32,[50][51][52] This study found that the phosphorylation of Beclin-1 caused by GIT1 would enhance the interaction with Parkin and promote Parkin's translocation to the mitochondrial membrane. This could explain the mechanism of GIT1 promoting mitophagy.…”

Section: Discussionmentioning

confidence: 75%

“…PINK1 activates the phosphorylation of Parkin and translocation to the mitochondrial outer membrane. Therefore, the ROS/PINK1/Parkin pathway is the main regulatory pathway of mitophagy, and Parkin's translocation to mitochondria is the most critical event . This study found that the phosphorylation of Beclin‐1 caused by GIT1 would enhance the interaction with Parkin and promote Parkin's translocation to the mitochondrial membrane.…”

Section: Discussionmentioning

confidence: 78%

The protective effort of GPCR kinase 2–interacting protein‐1 in neurons via promoting Beclin1‐Parkin induced mitophagy at the early stage of spinal cord ischemia‐reperfusion injury

Huang

Qian

et al. 2019

FASEB j.

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In spinal cord ischemia‐reperfusion (I/R) injury, large amounts of reactive oxygen species can cause mitochondrial damage. Therefore, mitophagy acts as the main mechanism for removing damaged mitochondria and protects nerve cells. This study aimed to illustrate the important role of GPCR kinase 2–interacting protein‐1 (GIT1) in mitophagy in vivo and in vitro. The level of mitophagy in the neurons of Git1 knockout mice was significantly reduced after ischemia‐reperfusion. However, the overexpression of adeno‐associated virus with Git1 promoted mitophagy and inhibited the apoptosis of neurons. GIT1 regulated the phosphorylation of Beclin‐1 in Thr119, which could promote the translocation of Parkin to the mitochondrial outer membrane. This process was independent of PTEN‐induced kinase 1 (PINK1), but it could not rescue the role in the absence of PINK1. Overall, GIT1 enhanced mitophagy and protected neurons against ischemia‐reperfusion injury and, hence, might serve as a new research site for the protection of ischemia‐reperfusion injury.

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“…Additionally, we examined the local residues that may be useful to explain any change in function (Figure ). The molecular model for the full structure and its variant form were analyzed using our established techniques (Abdul‐Hay et al., ; Ando et al., ; Caulfield, ; Caulfield & Devkota, ; Caulfield, Fiesel, & Springer, ; Caulfield & Medina‐Franco, ; Caulfield et al., , ; Fiesel, Ando, et al., ; Fiesel, Caufield, et al., ; López‐Vallejo et al., ; Puschmann et al., ; Zhang et al., ). The region around K801 is critical for various loops essential to the interface of the tetramer.…”

Section: Resultsmentioning

confidence: 99%

Protein informatics combined with multiple data sources enriches the clinical characterization of novel TRPV4 variant causing an intermediate skeletal dysplasia

Hines

Richter

Mohammad

et al. 2019

Molec Gen & Gen Med

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Background Transient receptor potential cation channel subfamily V member 4 ( TRPV 4) is an ion channel permeable to Ca 2+ that is sensitive to physical, hormonal, and chemical stimuli. This protein is expressed in many cell types, including osteoclasts, chondrocytes, and sensory neurons. As such, pathogenic variants of this gene are associated with skeletal dysplasias and neuromuscular disorders. Pathogenesis of these phenotypes is not yet completely understood, but it is known that genotype–phenotype correlations for TRPV 4 pathogenic variants often are not present. Methods Newly characterized, suspected pathogenic variant in TRPV 4 was analyzed using protein informatics and personalized protein‐level molecular studies, genomic exome analysis, and clinical study. Results This statement is demonstrated in the family of our proband, a 47‐year‐old female having the novel c.2401A>G (p.K801E) variant of TRPV 4 . We discuss the common symptoms between the proband, her father, and her daughter, and compare her phenotype to known TRPV 4 ‐associated skeletal dysplasias. Conclusions Protein informatics and molecular modeling are used to confirm the pathogenicity of the unique TRPV 4 variant found in this family. Multiple data were combined in a comprehensive manner to give complete overall perspective on the patient disease and prognosis.

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The PINK1 p.I368N mutation affects protein stability and ubiquitin kinase activity

Cited by 68 publications

References 82 publications

Protein molecular modeling techniques investigating novel TAB2 variant R347X causing cardiomyopathy and congenital heart defects in multigenerational family

Protein molecular modeling techniques investigating novel TAB2 variant R347X causing cardiomyopathy and congenital heart defects in multigenerational family

The protective effort of GPCR kinase 2–interacting protein‐1 in neurons via promoting Beclin1‐Parkin induced mitophagy at the early stage of spinal cord ischemia‐reperfusion injury

Protein informatics combined with multiple data sources enriches the clinical characterization of novel TRPV4 variant causing an intermediate skeletal dysplasia

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