Computational analysis of β cell Ca2+ dynamics in situ
β hubs are a distinct subpopulation of pancreatic β cells arising from intra-islet β cell heterogeneity. Subject to the challenges of data collection in vivo in the living animal after engraftment of islets into the anterior eye chamber, mouse β hubs seem to be in a transient state when it comes to...
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2024
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sg-ntu-dr.10356-1803582024-11-01T08:23:04Z Computational analysis of β cell Ca2+ dynamics in situ Yong, Fiona Su Wern Yusuf Ali Lee Kong Chian School of Medicine (LKCMedicine) Imperial College London Guy Rutter yusuf.ali@ntu.edu.sg, g.rutter@imperial.ac.uk Medicine, Health and Life Sciences Diabetes Type-2 diabetes Islet Beta cell Insulin Signal binarisation Lightsheet imaging Multivariate autoregressive modelling In-vivo imaging Beta hub cells Computational analysis β hubs are a distinct subpopulation of pancreatic β cells arising from intra-islet β cell heterogeneity. Subject to the challenges of data collection in vivo in the living animal after engraftment of islets into the anterior eye chamber, mouse β hubs seem to be in a transient state when it comes to retaining their identity as hubs over time, with healthy islets alternately recruiting more hubs and losing other hubs over a 2-week period. Factors governing the state of β hubs remain ill-defined although recently some studies have identified contributory mechanisms. A major challenge lies in interpreting the islet cell imaging data that serves as a proxy for functionality. Here, development and refinement of the signal binarisation method of connectivity analysis has proven to be invaluable in understanding the acquired image data. Using this signal binarisation connectivity analysis, mitofusins MFN1 and MFN2 seem to be necessary for maintaining β cell-β cell connectivity, with their deletion resulting in fewer hub connections compared to controls. By the same analysis methodology, the protein coding gene Nnat also appears to play a role in β cells heterogeneity, with a lower proportion of hub cells in the Nnat+ population, suggesting that Nnat might contribute to β cell heterogeneity through differential DNA methylation. However, result interpretation based on 2D imaging is a major drawback. Differences in results based on 2D and 3D imaging of the same islet highlights the importance of using 3D imaging for more comprehensive connectivity analyses, a novel finding that calls for caution in interpreting results obtained from a single focal plane. Doctor of Philosophy 2024-10-03T05:20:21Z 2024-10-03T05:20:21Z 2024 Thesis-Doctor of Philosophy Yong, F. S. W. (2024). Computational analysis of β cell Ca2+ dynamics in situ. Doctoral thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/180358 https://hdl.handle.net/10356/180358 10.32657/10356/180358 en This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0). application/pdf Nanyang Technological University |
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Medicine, Health and Life Sciences Diabetes Type-2 diabetes Islet Beta cell Insulin Signal binarisation Lightsheet imaging Multivariate autoregressive modelling In-vivo imaging Beta hub cells Computational analysis |
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Medicine, Health and Life Sciences Diabetes Type-2 diabetes Islet Beta cell Insulin Signal binarisation Lightsheet imaging Multivariate autoregressive modelling In-vivo imaging Beta hub cells Computational analysis Yong, Fiona Su Wern Computational analysis of β cell Ca2+ dynamics in situ |
| description |
β hubs are a distinct subpopulation of pancreatic β cells arising from intra-islet β cell heterogeneity. Subject to the challenges of data collection in vivo in the living animal after engraftment of islets into the anterior eye chamber, mouse β hubs seem to be in a transient state when it comes to retaining their identity as hubs over time, with healthy islets alternately recruiting more hubs and losing other hubs over a 2-week period. Factors governing the state of β hubs remain ill-defined although recently some studies have identified contributory mechanisms. A major challenge lies in interpreting the islet cell imaging data that serves as a proxy for functionality. Here, development and refinement of the signal binarisation method of connectivity analysis has proven to be invaluable in understanding the acquired image data. Using this signal binarisation connectivity analysis, mitofusins MFN1 and MFN2 seem to be necessary for maintaining β cell-β cell connectivity, with their deletion resulting in fewer hub connections compared to controls. By the same analysis methodology, the protein coding gene Nnat also appears to play a role in β cells heterogeneity, with a lower proportion of hub cells in the Nnat+ population, suggesting that Nnat might contribute to β cell heterogeneity through differential DNA methylation. However, result interpretation based on 2D imaging is a major drawback. Differences in results based on 2D and 3D imaging of the same islet highlights the importance of using 3D imaging for more comprehensive connectivity analyses, a novel finding that calls for caution in interpreting results obtained from a single focal plane. |
| author2 |
Yusuf Ali |
| author_facet |
Yusuf Ali Yong, Fiona Su Wern |
| format |
Thesis-Doctor of Philosophy |
| author |
Yong, Fiona Su Wern |
| author_sort |
Yong, Fiona Su Wern |
| title |
Computational analysis of β cell Ca2+ dynamics in situ |
| title_short |
Computational analysis of β cell Ca2+ dynamics in situ |
| title_full |
Computational analysis of β cell Ca2+ dynamics in situ |
| title_fullStr |
Computational analysis of β cell Ca2+ dynamics in situ |
| title_full_unstemmed |
Computational analysis of β cell Ca2+ dynamics in situ |
| title_sort |
computational analysis of β cell ca2+ dynamics in situ |
| publisher |
Nanyang Technological University |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180358 |
| _version_ |
1814777770180345856 |