Variant in NHLRC2 leads to increased hnRNP C2 in developing neurons and the hippocampus of a mouse model of FINCA disease

Variant in NHLRC2 leads to increased hnRNP C2 in developing neurons and the hippocampus of a mouse model of FINCA disease

Abstract Background FINCA disease is a pediatric cerebropulmonary disease caused by variants in the NHL repeat-containing 2 (NHLRC2) gene. Neurological symptoms are among the first manifestations of FINCA disease, but the consequences of NHLRC2 deficiency in the central nervous system are currently...

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Main Authors: Anniina E. Hiltunen, Salla M. Kangas, Steffen Ohlmeier, Ilkka Pietilä, Jori Hiltunen, Heikki Tanila, Colin McKerlie, Subashika Govindan, Hannu Tuominen, Riitta Kaarteenaho, Mikko Hallman, Johanna Uusimaa, Reetta Hinttala
Format: Article
Language:English
Published: BMC 2020-12-01
Series:Molecular Medicine
Subjects:
FINCA
NHLRC2
hnRNP C1/C2
Crispr/Cas9
Neuronal precursor cell
2D-DIGE
Online Access:https://doi.org/10.1186/s10020-020-00245-4
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spelling doaj-49cbc6b319124640b45364e90fbbfc8c2020-12-13T12:17:33ZengBMCMolecular Medicine1076-15511528-36582020-12-0126111610.1186/s10020-020-00245-4Variant in NHLRC2 leads to increased hnRNP C2 in developing neurons and the hippocampus of a mouse model of FINCA diseaseAnniina E. Hiltunen0Salla M. Kangas1Steffen Ohlmeier2Ilkka Pietilä3Jori Hiltunen4Heikki Tanila5Colin McKerlie6Subashika Govindan7Hannu Tuominen8Riitta Kaarteenaho9Mikko Hallman10Johanna Uusimaa11Reetta Hinttala12Medical Research Center Oulu and PEDEGO Research Unit, University of Oulu and Oulu University HospitalMedical Research Center Oulu and PEDEGO Research Unit, University of Oulu and Oulu University HospitalProteomics Core Facility, Biocenter Oulu, Faculty of Biochemistry and Molecular Medicine, University of OuluMedical Research Center Oulu and PEDEGO Research Unit, University of Oulu and Oulu University HospitalMedical Research Center Oulu and PEDEGO Research Unit, University of Oulu and Oulu University HospitalA.I. Virtanen Institute, University of Eastern FinlandThe Hospital for Sick ChildrenTissue Engineering Laboratory, Hepia/HES-SO, University of Applied Sciences Western SwitzerlandDepartment of Pathology, Cancer and Translational Medicine Research Unit, University of OuluResearch Unit of Internal Medicine, Respiratory Research, University of OuluMedical Research Center Oulu and PEDEGO Research Unit, University of Oulu and Oulu University HospitalMedical Research Center Oulu and PEDEGO Research Unit, University of Oulu and Oulu University HospitalMedical Research Center Oulu and PEDEGO Research Unit, University of Oulu and Oulu University HospitalAbstract Background FINCA disease is a pediatric cerebropulmonary disease caused by variants in the NHL repeat-containing 2 (NHLRC2) gene. Neurological symptoms are among the first manifestations of FINCA disease, but the consequences of NHLRC2 deficiency in the central nervous system are currently unexplored. Methods The orthologous mouse gene is essential for development, and its complete loss leads to early embryonic lethality. In the current study, we used CRISPR/Cas9 to generate an Nhlrc2 knockin (KI) mouse line, harboring the FINCA patient missense mutation (c.442G > T, p.Asp148Tyr). A FINCA mouse model, resembling the compound heterozygote genotype of FINCA patients, was obtained by crossing the KI and Nhlrc2 knockout mouse lines. To reveal NHLRC2-interacting proteins in developing neurons, we compared cortical neuronal precursor cells of E13.5 FINCA and wild-type mouse embryos by two-dimensional difference gel electrophoresis. Results Despite the significant decrease in NHLRC2, the mice did not develop severe early onset multiorgan disease in either sex. We discovered 19 altered proteins in FINCA neuronal precursor cells; several of which are involved in vesicular transport pathways and actin dynamics which have been previously reported in other cell types including human to have an association with dysfunctional NHLRC2. Interestingly, isoform C2 of hnRNP C1/C2 was significantly increased in both developing neurons and the hippocampus of adult female FINCA mice, connecting NHLRC2 dysfunction with accumulation of RNA binding protein. Conclusions We describe here the first NHLRC2-deficient mouse model to overcome embryonic lethality, enabling further studies on predisposing and causative mechanisms behind FINCA disease. Our novel findings suggest that disrupted RNA metabolism may contribute to the neurodegeneration observed in FINCA patients.https://doi.org/10.1186/s10020-020-00245-4FINCANHLRC2hnRNP C1/C2Crispr/Cas9Neuronal precursor cell2D-DIGE
collection DOAJ
language English
format Article
sources DOAJ
author Anniina E. Hiltunen
Salla M. Kangas
Steffen Ohlmeier
Ilkka Pietilä
Jori Hiltunen
Heikki Tanila
Colin McKerlie
Subashika Govindan
Hannu Tuominen
Riitta Kaarteenaho
Mikko Hallman
Johanna Uusimaa
Reetta Hinttala
spellingShingle Anniina E. Hiltunen
Salla M. Kangas
Steffen Ohlmeier
Ilkka Pietilä
Jori Hiltunen
Heikki Tanila
Colin McKerlie
Subashika Govindan
Hannu Tuominen
Riitta Kaarteenaho
Mikko Hallman
Johanna Uusimaa
Reetta Hinttala
Variant in NHLRC2 leads to increased hnRNP C2 in developing neurons and the hippocampus of a mouse model of FINCA disease
Molecular Medicine
FINCA
NHLRC2
hnRNP C1/C2
Crispr/Cas9
Neuronal precursor cell
2D-DIGE
author_facet Anniina E. Hiltunen
Salla M. Kangas
Steffen Ohlmeier
Ilkka Pietilä
Jori Hiltunen
Heikki Tanila
Colin McKerlie
Subashika Govindan
Hannu Tuominen
Riitta Kaarteenaho
Mikko Hallman
Johanna Uusimaa
Reetta Hinttala
author_sort Anniina E. Hiltunen
title Variant in NHLRC2 leads to increased hnRNP C2 in developing neurons and the hippocampus of a mouse model of FINCA disease
title_short Variant in NHLRC2 leads to increased hnRNP C2 in developing neurons and the hippocampus of a mouse model of FINCA disease
title_full Variant in NHLRC2 leads to increased hnRNP C2 in developing neurons and the hippocampus of a mouse model of FINCA disease
title_fullStr Variant in NHLRC2 leads to increased hnRNP C2 in developing neurons and the hippocampus of a mouse model of FINCA disease
title_full_unstemmed Variant in NHLRC2 leads to increased hnRNP C2 in developing neurons and the hippocampus of a mouse model of FINCA disease
title_sort variant in nhlrc2 leads to increased hnrnp c2 in developing neurons and the hippocampus of a mouse model of finca disease
publisher BMC
series Molecular Medicine
issn 1076-1551
1528-3658
publishDate 2020-12-01
description Abstract Background FINCA disease is a pediatric cerebropulmonary disease caused by variants in the NHL repeat-containing 2 (NHLRC2) gene. Neurological symptoms are among the first manifestations of FINCA disease, but the consequences of NHLRC2 deficiency in the central nervous system are currently unexplored. Methods The orthologous mouse gene is essential for development, and its complete loss leads to early embryonic lethality. In the current study, we used CRISPR/Cas9 to generate an Nhlrc2 knockin (KI) mouse line, harboring the FINCA patient missense mutation (c.442G > T, p.Asp148Tyr). A FINCA mouse model, resembling the compound heterozygote genotype of FINCA patients, was obtained by crossing the KI and Nhlrc2 knockout mouse lines. To reveal NHLRC2-interacting proteins in developing neurons, we compared cortical neuronal precursor cells of E13.5 FINCA and wild-type mouse embryos by two-dimensional difference gel electrophoresis. Results Despite the significant decrease in NHLRC2, the mice did not develop severe early onset multiorgan disease in either sex. We discovered 19 altered proteins in FINCA neuronal precursor cells; several of which are involved in vesicular transport pathways and actin dynamics which have been previously reported in other cell types including human to have an association with dysfunctional NHLRC2. Interestingly, isoform C2 of hnRNP C1/C2 was significantly increased in both developing neurons and the hippocampus of adult female FINCA mice, connecting NHLRC2 dysfunction with accumulation of RNA binding protein. Conclusions We describe here the first NHLRC2-deficient mouse model to overcome embryonic lethality, enabling further studies on predisposing and causative mechanisms behind FINCA disease. Our novel findings suggest that disrupted RNA metabolism may contribute to the neurodegeneration observed in FINCA patients.
topic FINCA
NHLRC2
hnRNP C1/C2
Crispr/Cas9
Neuronal precursor cell
2D-DIGE
url https://doi.org/10.1186/s10020-020-00245-4
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