Guiding irregular nuclear morphology on nanopillar arrays for malignancy differentiation in tumor cells
For more than a century, abnormal nuclei in tumor cells, presenting subnuclear invaginations and folds on the nuclear envelope, have been known to be associated with high malignancy and poor prognosis. However, current nuclear morphology analysis focuses on the features of the entire nucleus, overlo...
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sg-ntu-dr.10356-1634582023-06-21T08:35:38Z Guiding irregular nuclear morphology on nanopillar arrays for malignancy differentiation in tumor cells Zeng, Yongpeng Zhuang, Yinyin Vinod, Benjamin Guo, Xiangfu Mitra, Aninda Chen, Peng Saggio, Isabella Shivashankar, G. V. Gao, Weibo Zhao, Wenting School of Biological Sciences School of Physical and Mathematical Sciences School of Chemistry, Chemical Engineering and Biotechnology Institute for Digital Molecular Analytics and Science, NTU The Photonics Institute Centre for Disruptive Photonic Technologies (CDPT) Science::Biological sciences Nanopillar Subnuclear Irregularity For more than a century, abnormal nuclei in tumor cells, presenting subnuclear invaginations and folds on the nuclear envelope, have been known to be associated with high malignancy and poor prognosis. However, current nuclear morphology analysis focuses on the features of the entire nucleus, overlooking the malignancy-related subnuclear features in nanometer scale. The main technical challenge is to probe such tiny and randomly distributed features inside cells. We here employ nanopillar arrays to guide subnuclear features into ordered patterns, enabling their quantification as a strong indicator of cell malignancy. Both breast and liver cancer cells were validated as well as the quantification of nuclear abnormality heterogeneity. The alterations of subnuclear patterns were also explored as effective readouts for drug treatment. We envision that this nanopillar-enabled quantification of subnuclear abnormal features in tumor cells opens a new angle in characterizing malignant cells and studying the unique nuclear biology in cancer. Ministry of Education (MOE) Nanyang Technological University National Research Foundation (NRF) This work is supported by the Singapore Ministry of Education (MOE) (W.Z., RG145/18 and RG112/20), the Singapore National Research Foundation (W.Z., NRF2019-NRF-ISF003- 3292), the Institute for Digital Molecular Analytics and Science (IDMxS) supported by MOE funding under the Research Centres of Excellence scheme (W.Z.), the NTU Start-up Grant (W.Z.), the NTU-NNI Neurotechnology Fellowship (W.Z.), and AIRC IG-24614 and Sapienza AR1181642EE61111 (I.S.). 2022-12-07T02:15:36Z 2022-12-07T02:15:36Z 2022 Journal Article Zeng, Y., Zhuang, Y., Vinod, B., Guo, X., Mitra, A., Chen, P., Saggio, I., Shivashankar, G. V., Gao, W. & Zhao, W. (2022). Guiding irregular nuclear morphology on nanopillar arrays for malignancy differentiation in tumor cells. Nano Letters, 22(18), 7724-7733. https://dx.doi.org/10.1021/acs.nanolett.2c01849 1530-6984 https://hdl.handle.net/10356/163458 10.1021/acs.nanolett.2c01849 35969027 2-s2.0-85136676971 18 22 7724 7733 en RG145/18 RG112/20 NRF2019-NRF-ISF003- 3292 Nano Letters © 2022 American Chemical Society. All rights reserved. |
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Science::Biological sciences Nanopillar Subnuclear Irregularity |
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Science::Biological sciences Nanopillar Subnuclear Irregularity Zeng, Yongpeng Zhuang, Yinyin Vinod, Benjamin Guo, Xiangfu Mitra, Aninda Chen, Peng Saggio, Isabella Shivashankar, G. V. Gao, Weibo Zhao, Wenting Guiding irregular nuclear morphology on nanopillar arrays for malignancy differentiation in tumor cells |
| description |
For more than a century, abnormal nuclei in tumor cells, presenting subnuclear invaginations and folds on the nuclear envelope, have been known to be associated with high malignancy and poor prognosis. However, current nuclear morphology analysis focuses on the features of the entire nucleus, overlooking the malignancy-related subnuclear features in nanometer scale. The main technical challenge is to probe such tiny and randomly distributed features inside cells. We here employ nanopillar arrays to guide subnuclear features into ordered patterns, enabling their quantification as a strong indicator of cell malignancy. Both breast and liver cancer cells were validated as well as the quantification of nuclear abnormality heterogeneity. The alterations of subnuclear patterns were also explored as effective readouts for drug treatment. We envision that this nanopillar-enabled quantification of subnuclear abnormal features in tumor cells opens a new angle in characterizing malignant cells and studying the unique nuclear biology in cancer. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Zeng, Yongpeng Zhuang, Yinyin Vinod, Benjamin Guo, Xiangfu Mitra, Aninda Chen, Peng Saggio, Isabella Shivashankar, G. V. Gao, Weibo Zhao, Wenting |
| format |
Article |
| author |
Zeng, Yongpeng Zhuang, Yinyin Vinod, Benjamin Guo, Xiangfu Mitra, Aninda Chen, Peng Saggio, Isabella Shivashankar, G. V. Gao, Weibo Zhao, Wenting |
| author_sort |
Zeng, Yongpeng |
| title |
Guiding irregular nuclear morphology on nanopillar arrays for malignancy differentiation in tumor cells |
| title_short |
Guiding irregular nuclear morphology on nanopillar arrays for malignancy differentiation in tumor cells |
| title_full |
Guiding irregular nuclear morphology on nanopillar arrays for malignancy differentiation in tumor cells |
| title_fullStr |
Guiding irregular nuclear morphology on nanopillar arrays for malignancy differentiation in tumor cells |
| title_full_unstemmed |
Guiding irregular nuclear morphology on nanopillar arrays for malignancy differentiation in tumor cells |
| title_sort |
guiding irregular nuclear morphology on nanopillar arrays for malignancy differentiation in tumor cells |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163458 |
| _version_ |
1772825863243431936 |