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1. YOLO2U-Net: Detection-Guided 3D Instance Segmentation for Microscopy

Author

Ziabari, Amirkoushyar, Rose, Derek C., Shirinifard, Abbas, and Solecki, David

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Quantitative Biology - Cell Behavior
Abstract

Microscopy imaging techniques are instrumental for characterization and analysis of biological structures. As these techniques typically render 3D visualization of cells by stacking 2D projections, issues such as out-of-plane excitation and low resolution in the $z$-axis may pose challenges (even for human experts) to detect individual cells in 3D volumes as these non-overlapping cells may appear as overlapping. In this work, we introduce a comprehensive method for accurate 3D instance segmentation of cells in the brain tissue. The proposed method combines the 2D YOLO detection method with a multi-view fusion algorithm to construct a 3D localization of the cells. Next, the 3D bounding boxes along with the data volume are input to a 3D U-Net network that is designed to segment the primary cell in each 3D bounding box, and in turn, to carry out instance segmentation of cells in the entire volume. The promising performance of the proposed method is shown in comparison with some current deep learning-based 3D instance segmentation methods.

Published
2022

8. A spatial cell atlas of neuroblastoma reveals developmental, epigenetic and spatial axis of tumor heterogeneity

Author

Patel, Anand G., primary, Ashenberg, Orr, additional, Collins, Natalie B., additional, Segerstolpe, Åsa, additional, Jiang, Sizun, additional, Slyper, Michal, additional, Huang, Xin, additional, Caraccio, Chiara, additional, Jin, Hongjian, additional, Sheppard, Heather, additional, Xu, Ke, additional, Chang, Ti-Cheng, additional, Orr, Brent A., additional, Shirinifard, Abbas, additional, Chapple, Richard H., additional, Shen, Amber, additional, Clay, Michael R., additional, Tatevossian, Ruth G., additional, Reilly, Colleen, additional, Patel, Jaimin, additional, Lupo, Marybeth, additional, Cline, Cynthia, additional, Dionne, Danielle, additional, Porter, Caroline B.M., additional, Waldman, Julia, additional, Bai, Yunhao, additional, Zhu, Bokai, additional, Barrera, Irving, additional, Murray, Evan, additional, Vigneau, Sébastien, additional, Napolitano, Sara, additional, Wakiro, Isaac, additional, Wu, Jingyi, additional, Grimaldi, Grace, additional, Dellostritto, Laura, additional, Helvie, Karla, additional, Rotem, Asaf, additional, Lako, Ana, additional, Cullen, Nicole, additional, Pfaff, Kathleen L., additional, Karlström, Åsa, additional, Jané-Valbuena, Judit, additional, Todres, Ellen, additional, Thorner, Aaron, additional, Geeleher, Paul, additional, Rodig, Scott J., additional, Zhou, Xin, additional, Stewart, Elizabeth, additional, Johnson, Bruce E., additional, Wu, Gang, additional, Chen, Fei, additional, Yu, Jiyang, additional, Goltsev, Yury, additional, Nolan, Garry P., additional, Rozenblatt-Rosen, Orit, additional, Regev, Aviv, additional, and Dyer, Michael A., additional

Published
2024
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9. Targeting the DNA Repair Pathway in Ewing Sarcoma

Author

Stewart, Elizabeth, Goshorn, Ross, Bradley, Cori, Griffiths, Lyra M, Benavente, Claudia, Twarog, Nathaniel R, Miller, Gregory M, Caufield, William, Freeman, Burgess B, Bahrami, Armita, Pappo, Alberto, Wu, Jianrong, Loh, Amos, Karlström, Åsa, Calabrese, Chris, Gordon, Brittney, Tsurkan, Lyudmila, Hatfield, M Jason, Potter, Philip M, Snyder, Scott E, Thiagarajan, Suresh, Shirinifard, Abbas, Sablauer, Andras, Shelat, Anang A, and Dyer, Michael A

Subjects
Biological Sciences, Orphan Drug, Pediatric Research Initiative, Genetics, Cancer, Pediatric Cancer, Pediatric, Rare Diseases, Animals, Benzimidazoles, Camptothecin, Cell Death, Cell Line, Tumor, DNA Breaks, Double-Stranded, DNA Repair, Dacarbazine, Drug Synergism, Enzyme Inhibitors, Irinotecan, Mice, Nude, Molecular Targeted Therapy, Phthalazines, Piperazines, Poly(ADP-ribose) Polymerase Inhibitors, Poly(ADP-ribose) Polymerases, Sarcoma, Ewing, Temozolomide, Xenograft Model Antitumor Assays, Biochemistry and Cell Biology, Medical Physiology, Biological sciences
Abstract

Ewing sarcoma (EWS) is a tumor of the bone and soft tissue that primarily affects adolescents and young adults. With current therapies, 70% of patients with localized disease survive, but patients with metastatic or recurrent disease have a poor outcome. We found that EWS cell lines are defective in DNA break repair and are sensitive to PARP inhibitors (PARPis). PARPi-induced cytotoxicity in EWS cells was 10- to 1,000-fold higher after administration of the DNA-damaging agents irinotecan or temozolomide. We developed an orthotopic EWS mouse model and performed pharmacokinetic and pharmacodynamic studies using three different PARPis that are in clinical development for pediatric cancer. Irinotecan administered on a low-dose, protracted schedule previously optimized for pediatric patients was an effective DNA-damaging agent when combined with PARPis; it was also better tolerated than combinations with temozolomide. Combining PARPis with irinotecan and temozolomide gave complete and durable responses in more than 80% of the mice.

Published
2014

10. Contact-inhibited chemotaxis in de novo and sprouting blood-vessel growth

Author

Merks, Roeland M. H., Perryn, Erica D., Shirinifard, Abbas, and Glazier, James A.

Subjects
Quantitative Biology - Tissues and Organs, Quantitative Biology - Cell Behavior
Abstract

Blood vessels form either when dispersed endothelial cells (the cells lining the inner walls of fully-formed blood vessels) organize into a vessel network (vasculogenesis), or by sprouting or splitting of existing blood vessels (angiogenesis). Although they are closely related biologically, no current model explains both phenomena with a single biophysical mechanism. Most computational models describe sprouting at the level of the blood vessel, ignoring how cell behavior drives branch splitting during sprouting. We present a cell-based, Glazier-Graner-Hogeweg-model simulation of the initial patterning before the vascular cords form lumens, based on plausible behaviors of endothelial cells. The endothelial cells secrete a chemoattractant, which attracts other endothelial cells. As in the classic Keller-Segel model, chemotaxis by itself causes cells to aggregate into isolated clusters. However, including experimentally-observed adhesion-driven contact inhibition of chemotaxis in the simulation causes randomly-distributed cells to organize into networks and cell aggregates to sprout, reproducing aspects of both de novo and sprouting blood-vessel growth. We discuss two branching instabilities responsible for our results. Cells at the surfaces of cell clusters attempting to migrate to the centers of the clusters produce a buckling instability. In a model variant that eliminates the surface-normal force, a dissipative mechanism drives sprouting, with the secreted chemical acting both as a chemoattractant and as an inhibitor of pseudopod extension. The branching instabilities responsible for our results, which result from contact inhibition of chemotaxis, are both generic developmental mechanisms and interesting examples of unusual patterning instabilities., Comment: Thoroughly revised version, now in press in PLoS Computational Biology. 53 pages, 13 figures, 2 supporting figures, 56 supporting movies, source code and parameters files for computer simulations provided. Supporting information: http://www.psb.ugent.be/~romer/ploscompbiol/ Source code: http://sourceforge.net/projects/tst/

Published
2005
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12. Supplementary Data from Matricellular Protein WISP2 Is an Endogenous Inhibitor of Collagen Linearization and Cancer Metastasis

Author

Janjanam, Jagadeesh, primary, Pano, Glendin, primary, Wang, Ruishan, primary, Minden-Birkenmaier, Benjamin A., primary, Breeze-Jones, Hannah, primary, Baker, Eleanor, primary, Garcin, Cecile, primary, Clayton, Georgia, primary, Shirinifard, Abbas, primary, Zaske, Ana Maria, primary, Finkelstein, David, primary, and Labelle, Myriam, primary

Published
2023
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13. Data from Matricellular Protein WISP2 Is an Endogenous Inhibitor of Collagen Linearization and Cancer Metastasis

Author

Janjanam, Jagadeesh, primary, Pano, Glendin, primary, Wang, Ruishan, primary, Minden-Birkenmaier, Benjamin A., primary, Breeze-Jones, Hannah, primary, Baker, Eleanor, primary, Garcin, Cecile, primary, Clayton, Georgia, primary, Shirinifard, Abbas, primary, Zaske, Ana Maria, primary, Finkelstein, David, primary, and Labelle, Myriam, primary

Published
2023
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15. Deep multiomics profiling of brain tumors identifies signaling networks downstream of cancer driver genes

Author

Wang, Hong, Diaz, Alexander K., Shaw, Timothy I., Li, Yuxin, Niu, Mingming, Cho, Ji-Hoon, Paugh, Barbara S., Zhang, Yang, Sifford, Jeffrey, Bai, Bing, Wu, Zhiping, Tan, Haiyan, Zhou, Suiping, Hover, Laura D., Tillman, Heather S., Shirinifard, Abbas, Thiagarajan, Suresh, Sablauer, Andras, Pagala, Vishwajeeth, High, Anthony A., Wang, Xusheng, Li, Chunliang, Baker, Suzanne J., and Peng, Junmin

Published
2019
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16. Innate frequency-discrimination hyperacuity in Williams-Beuren syndrome mice

Author

Davenport, Christopher M., primary, Teubner, Brett J.W., additional, Han, Seung Baek, additional, Patton, Mary H., additional, Eom, Tae-Yeon, additional, Garic, Dusan, additional, Lansdell, Benjamin J., additional, Shirinifard, Abbas, additional, Chang, Ti-Cheng, additional, Klein, Jonathon, additional, Pruett-Miller, Shondra M., additional, Blundon, Jay A., additional, and Zakharenko, Stanislav S., additional

Published
2022
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18. Matricellular Protein WISP2 Is an Endogenous Inhibitor of Collagen Linearization and Cancer Metastasis

Author

Janjanam, Jagadeesh, primary, Pano, Glendin, additional, Wang, Ruishan, additional, Minden-Birkenmaier, Benjamin A., additional, Breeze-Jones, Hannah, additional, Baker, Eleanor, additional, Garcin, Cecile, additional, Clayton, Georgia, additional, Shirinifard, Abbas, additional, Zaske, Ana Maria, additional, Finkelstein, David, additional, and Labelle, Myriam, additional

Published
2021
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20. Oxygen Tension and the VHL-Hif1α Pathway Determine Onset of Neuronal Polarization and Cerebellar Germinal Zone Exit

Author

Kullmann, Jan A, Trivedi, Niraj, Howell, Danielle, Laumonnerie, Christophe, Nguyen, Vien, Banerjee, Shalini S, Stabley, Daniel R, Shirinifard, Abbas, Rowitch, David H, Solecki, David J, Rowitch, David [0000-0002-0079-0060], and Apollo - University of Cambridge Repository

Subjects
Male, Neurons, Neurogenesis, Cell Polarity, Integrin, Cell Differentiation, Hypoxia-Inducible Factor 1, alpha Subunit, Pard Complex, Oxygen, Mice, vascularization, Von Hippel-Lindau Tumor Suppressor Protein, Cerebellum, Animals, Female, Hif1 Pathway, neuronal differentiation, Zeb1, Signal Transduction
Abstract

Postnatal brain circuit assembly is driven by temporally regulated intrinsic and cell-extrinsic cues that organize neurogenesis, migration, and axo-dendritic specification in post-mitotic neurons. While cell polarity is an intrinsic organizer of morphogenic events, environmental cues in the germinal zone (GZ) instructing neuron polarization and their coupling during postnatal development are unclear. We report that oxygen tension, which rises at birth, and the von Hippel-Lindau (VHL)-hypoxia-inducible factor 1α (Hif1α) pathway regulate polarization and maturation of post-mitotic cerebellar granule neurons (CGNs). At early postnatal stages with low GZ vascularization, Hif1α restrains CGN-progenitor cell-cycle exit. Unexpectedly, cell-intrinsic VHL-Hif1α pathway activation also delays the timing of CGN differentiation, germinal zone exit, and migration initiation through transcriptional repression of the partitioning-defective (Pard) complex. As vascularization proceeds, these inhibitory mechanisms are downregulated, implicating increasing oxygen tension as a critical switch for neuronal polarization and cerebellar GZ exit.

Published
2020

25. Correlative three-dimensional super-resolution and block-face electron microscopy of whole vitreously frozen cells

Author

Hoffman, David P., primary, Shtengel, Gleb, additional, Xu, C. Shan, additional, Campbell, Kirby R., additional, Freeman, Melanie, additional, Wang, Lei, additional, Milkie, Daniel E., additional, Pasolli, H. Amalia, additional, Iyer, Nirmala, additional, Bogovic, John A., additional, Stabley, Daniel R., additional, Shirinifard, Abbas, additional, Pang, Song, additional, Peale, David, additional, Schaefer, Kathy, additional, Pomp, Wim, additional, Chang, Chi-Lun, additional, Lippincott-Schwartz, Jennifer, additional, Kirchhausen, Tom, additional, Solecki, David J., additional, Betzig, Eric, additional, and Hess, Harald F., additional

Published
2020
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29. Correlative three-dimensional super-resolution and block face electron microscopy of whole vitreously frozen cells

Author

Hoffman, David P., primary, Shtengel, Gleb, additional, Xu, C. Shan, additional, Campbell, Kirby R., additional, Freeman, Melanie, additional, Wang, Lei, additional, Milkie, Daniel E., additional, Pasolli, H. Amalia, additional, Iyer, Nirmala, additional, Bogovic, John A., additional, Stabley, Daniel R., additional, Shirinifard, Abbas, additional, Pang, Song, additional, Peale, David, additional, Schaefer, Kathy, additional, Pomp, Wim, additional, Chang, Chi-Lun, additional, Lippincott-Schwartz, Jennifer, additional, Kirchhausen, Tom, additional, Solecki, David J., additional, Betzig, Eric, additional, and Hess, Harald, additional

Published
2019
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30. The tumor cell‐secreted matricellular protein WISP 1 drives pro‐metastatic collagen linearization

Author

Jia, Hong, primary, Janjanam, Jagadeesh, additional, Wu, Sharon C, additional, Wang, Ruishan, additional, Pano, Glendin, additional, Celestine, Marina, additional, Martinot, Ophelie, additional, Breeze‐Jones, Hannah, additional, Clayton, Georgia, additional, Garcin, Cecile, additional, Shirinifard, Abbas, additional, Zaske, Ana Maria, additional, Finkelstein, David, additional, and Labelle, Myriam, additional

Published
2019
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31. Circadian gene variants and the skeletal muscle circadian clock contribute to the evolutionary divergence in longevity across Drosophila populations

Author

Hunt, Liam C., primary, Jiao, Jianqin, additional, Wang, Yong-Dong, additional, Finkelstein, David, additional, Rao, Deepti, additional, Curley, Michelle, additional, Robles-Murguia, Maricela, additional, Shirinifard, Abbas, additional, Pagala, Vishwajeeth R., additional, Peng, Junmin, additional, Fan, Yiping, additional, and Demontis, Fabio, additional

Published
2019
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32. Retinal Cell Type DNA Methylation and Histone Modifications Predict Reprogramming Efficiency and Retinogenesis in 3D Organoid Cultures

Author

Wang, Lu, primary, Hiler, Daniel, additional, Xu, Beisi, additional, AlDiri, Issam, additional, Chen, Xiang, additional, Zhou, Xin, additional, Griffiths, Lyra, additional, Valentine, Marc, additional, Shirinifard, Abbas, additional, Sablauer, András, additional, Thiagarajan, Suresh, additional, Barabas, Marie-Elizabeth, additional, Zhang, Jiakun, additional, Johnson, Dianna, additional, Frase, Sharon, additional, and Dyer, Michael A., additional

Published
2018
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33. Oxygen-Tension and the VHL-Hif1α Pathway Comprise a Developmental Switch Controlling the Onset of Neuronal Polarization and Germinal Zone Exit

Author

Kullmann, Jan A., primary, Trivedi, Niraj, additional, Howell, Danielle, additional, Laumonnerie, Christophe, additional, Nguyen, Vien, additional, Banerjee, Shalini S., additional, Stabley, Daniel R., additional, Shirinifard, Abbas, additional, Rowitch, David H., additional, and Solecki, David, additional

Published
2018
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34. The Dynamic Epigenetic Landscape of the Retina During Development, Reprogramming, and Tumorigenesis

Author

Aldiri, Issam, primary, Xu, Beisi, additional, Wang, Lu, additional, Chen, Xiang, additional, Hiler, Daniel, additional, Griffiths, Lyra, additional, Valentine, Marc, additional, Shirinifard, Abbas, additional, Thiagarajan, Suresh, additional, Sablauer, Andras, additional, Barabas, Marie-Elizabeth, additional, Zhang, Jiakun, additional, Johnson, Dianna, additional, Frase, Sharon, additional, Zhou, Xin, additional, Easton, John, additional, Zhang, Jinghui, additional, Mardis, Elaine R., additional, Wilson, Richard K., additional, Downing, James R., additional, and Dyer, Michael A., additional

Published
2017
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36. Abstract 2708: Development of an individualized 3D transport model of topotecan for a patient-derived orthotopic xenograft model of pediatric neuroblastoma

Author

Shirinifard, Abbas, primary, Thiagarajan, Suresh, additional, Patel, Yogesh T., additional, Davis, Abigail D., additional, Jacus, Megan O., additional, Throm, Stacy L., additional, Roberts, Jessica, additional, Daryani, Vinay, additional, Stewart, Clinton F., additional, and Sablauer., András, additional

Published
2016
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38. Retinal Cell Type DNA Methylation and Histone Modifications Predict Reprogramming Efficiency and Retinogenesis in 3D Organoid Cultures.

Author

Lu Wang, Hiler, Daniel, Beisi Xu, AlDiri, Issam, Xiang Chen, Xin Zhou, Griffiths, Lyra, Valentine, Marc, Shirinifard, Abbas, Sablauer, András, Thiagarajan, Suresh, Barabas, Marie-Elizabeth, Jiakun Zhang, Johnson, Dianna, Frase, Sharon, and Dyer, Michael A.

Abstract

Diverse cell types can be reprogrammed into pluripotent stem cells by ectopic expression of Oct4 (Pou5f1), Klf4, Sox3, and Myc. Many of these induced pluripotent stem cells (iPSCs) retain memory, in terms of DNA methylation and histone modifications (epigenetic memory), of their cellular origins, and this may bias subsequent differentiation. Neurons are difficult to reprogram, and there has not been a systematic side-by-side characterization of reprogramming efficiency or epigenetic memory across different neuronal subtypes. Here, we compare reprogramming efficiency of five different retinal cell types at two different stages of development. Retinal differentiation from each iPSC line was measured using a quantitative standardized scoring system called STEM-RET and compared to the epigenetic memory. Neurons with the lowest reprogramming efficiency produced iPSC lines with the best retinal differentiation and were more likely to retain epigenetic memory of their cellular origins. In addition, we identified biomarkers of iPSCs that are predictive of retinal differentiation. [ABSTRACT FROM AUTHOR]

Published
2018
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39. Development and characterization of a human orthotopic neuroblastoma xenograft

Author

Stewart, Elizabeth, primary, Shelat, Anang, additional, Bradley, Cori, additional, Chen, Xiang, additional, Federico, Sara, additional, Thiagarajan, Suresh, additional, Shirinifard, Abbas, additional, Bahrami, Armita, additional, Pappo, Alberto, additional, Qu, Chunxu, additional, Finkelstein, David, additional, Sablauer, Andras, additional, and Dyer, Michael A., additional

Published
2015
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41. Abstract 4519: Development of a whole body physiologically-based pharmacokinetic (PBPK) model with individualized tumor compartment for topotecan (TPT) in mice bearing neuroblastoma (NB)

Author

Patel, Yogesh T., primary, Jacus, Megan O., additional, Shirinifard, Abbas, additional, Davis, Abigail D., additional, Thiagarajan, Suresh, additional, Throm, Stacy L., additional, Daryani, Vinay M., additional, Sablauer, Andras, additional, and Stewart, Clinton F., additional

Published
2015
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45. Ovarian Tumor Attachment, Invasion, and Vascularization Reflect Unique Microenvironments in the Peritoneum: Insights from Xenograft and Mathematical Models

Author

Steinkamp, Mara P., primary, Winner, Kimberly Kanigel, additional, Davies, Suzy, additional, Muller, Carolyn, additional, Zhang, Yong, additional, Hoffman, Robert M., additional, Shirinifard, Abbas, additional, Moses, Melanie, additional, Jiang, Yi, additional, and Wilson, Bridget S., additional

Published
2013
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