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      Role of the late‐onset Alzheimer’s disease risk genes bin1 and ptk2b in the hyperexcitability of hiPSC‐derived neurons

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      https://www.riss.kr/link?id=O119463907

      • 저자
      • 발행기관
      • 학술지명
      • 권호사항
      • 발행연도

        2021년

      • 작성언어

        -

      • Print ISSN

        1552-5260

      • Online ISSN

        1552-5279

      • 등재정보

        SCOPUS;SCIE

      • 자료형태

        학술저널

      • 수록면

        n/a-n/a   [※수록면이 p5 이하이면, Review, Columns, Editor's Note, Abstract 등일 경우가 있습니다.]

      • 구독기관
        • 전북대학교 중앙도서관  
        • 성균관대학교 중앙학술정보관  
        • 부산대학교 중앙도서관  
        • 전남대학교 중앙도서관  
        • 인천대학교 학산도서관  
        • 숙명여자대학교 중앙도서관  
        • 충남대학교 중앙도서관  
        • 한양대학교 백남학술정보관  
        • 이화여자대학교 중앙도서관  
        • 고려대학교 도서관  

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      다국어 초록 (Multilingual Abstract)

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      한국어
      The BIN1 (Bridging Integrator‐1) gene is the second most important Alzheimer’s disease risk gene and has been associated with synaptic transmission defects in animal models. PTK2B (Protein Tyrosine Kinase 2β) is a Ca2+‐activated non‐receptor tyrosine kinase, also identified by genome‐wide association study (GWAS) as an important AD risk factor, and playing a role in the mouse hippocampal synaptic plasticity.
      In this work, we aimed at studying the possible effects of BIN1 or PTK2B underexpression in the electrical activity taking advantage of human induced pluripotent stem cell (hiPSC)‐derived neurons. To this aim, we are using hiPSCs expressing allelic variants of BIN (BIN1+/+ and BIN1‐/‐) or PTK2B (PTK2B+/+, PTK2B+/‐ and PTK2B ‐/‐). Human induced neural progenitor cells (hiNPCs) are generated from these hiPSCs, which are further differentiated into mature neurons and glia. We evaluated the gene expression, cell type composition of cultures, and neuronal electrical activity using western blot, immunocytochemistry, pharmacological assays, and calcium imaging as a readout of the electrical function.
      Our preliminary data suggest that BIN1 KO decreases proliferation of NPCs. In addition, analyses of calcium imaging recordings show decreased number of active cells although, the active ones show a higher calcium spikes frequency and less synchronization. Furthermore, neuronal activity or PTK2B underexpression impairs the differentiation potential of hiNPCs into neurons. As well, and increased calcium spikes frequency in hiNs.
      Taken together, our preliminary panel of data suggests that both BIN1 and PTK2B regulate important biological processes involved in neuronal differentiation and electrical maturation. Thus, altered expression of these genes in the AD brain could play a role in neuronal hyperexcitability observed in patients.
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      The BIN1 (Bridging Integrator‐1) gene is the second most important Alzheimer’s disease risk gene and has been associated with synaptic transmission defects in animal models. PTK2B (Protein Tyrosine Kinase 2β) is a Ca2+‐activated non‐receptor ...

      The BIN1 (Bridging Integrator‐1) gene is the second most important Alzheimer’s disease risk gene and has been associated with synaptic transmission defects in animal models. PTK2B (Protein Tyrosine Kinase 2β) is a Ca2+‐activated non‐receptor tyrosine kinase, also identified by genome‐wide association study (GWAS) as an important AD risk factor, and playing a role in the mouse hippocampal synaptic plasticity.
      In this work, we aimed at studying the possible effects of BIN1 or PTK2B underexpression in the electrical activity taking advantage of human induced pluripotent stem cell (hiPSC)‐derived neurons. To this aim, we are using hiPSCs expressing allelic variants of BIN (BIN1+/+ and BIN1‐/‐) or PTK2B (PTK2B+/+, PTK2B+/‐ and PTK2B ‐/‐). Human induced neural progenitor cells (hiNPCs) are generated from these hiPSCs, which are further differentiated into mature neurons and glia. We evaluated the gene expression, cell type composition of cultures, and neuronal electrical activity using western blot, immunocytochemistry, pharmacological assays, and calcium imaging as a readout of the electrical function.
      Our preliminary data suggest that BIN1 KO decreases proliferation of NPCs. In addition, analyses of calcium imaging recordings show decreased number of active cells although, the active ones show a higher calcium spikes frequency and less synchronization. Furthermore, neuronal activity or PTK2B underexpression impairs the differentiation potential of hiNPCs into neurons. As well, and increased calcium spikes frequency in hiNs.
      Taken together, our preliminary panel of data suggests that both BIN1 and PTK2B regulate important biological processes involved in neuronal differentiation and electrical maturation. Thus, altered expression of these genes in the AD brain could play a role in neuronal hyperexcitability observed in patients.

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