Tianye Zhang scite author profile

Compared with traditional monolayer cell culture, the three-dimensional tumor spheroid has emerged as an essential in vitro model for cancer research due to the recapitulation of the architecture and physiology of solid human tumors. Herein, by implementing the rapid prototyping of a benchtop 3D printer, we developed a new strategy to generate and analyze tumor spheroids on a commonly used multi-well plate. In this method, the printed artifact can be directly mounted on a 96/384-well plate, enables hanging drop-based spheroid formation, avoiding the tedious fabrication process from micromechanical systems. Besides long-term spheroid culture (20 days), this method supports subsequent analysis of tumor spheroid by seamlessly dripping from the printed array, thereby eliminating the need for spheroids retrieval for downstream characterization. We demonstrated several tumor spheroid-based assays, including tumoroid drug testing, metastasis on or inside extracellular matrix gel, and tumor transendothelial (TEM) assay. Based on quantitative phenotypical and molecular analysis without any precarious retrieval and transfer, we found that the malignant breast cancer (MDA-MB-231) cell aggregate presents a more metastatic morphological phenotype than the non-malignant breast cancer (MCF-7) and colonial cancer (HCT-116) cell spheroid, and shows an up-regulation of epithelial-mesenchymal transition (EMT) relevant genes (fold change > 2). Finally, we validated this tumor malignancy by the TEM assay, which could be easily performed using our approach. This methodology could provide a useful workflow for expediting tumoroid modeled in vitro assay, allowing the “Lab-on-a-Cloud” scenario for routine study.

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Chinese wheat mosaic virus‐derived vsiRNA‐20 can regulate virus infection in wheat through inhibition of vacuolar‐ (H⁺)‐PPase induced cell death

Yang¹,

Zhang²,

Li³

et al. 2020

New Phytologist

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Summary Vacuolar (H+)‐PPases (VPs), are key regulators of active proton (H+) transport across membranes using the energy generated from PPi hydrolysis. The VPs also play vital roles in plant responses to various abiotic stresses. Their functions in plant responses to pathogen infections are unknown. Here, we show that TaVP, a VP of wheat (Triticum aestivum) is important for wheat resistance to Chinese wheat mosaic virus (CWMV) infection. Furthermore, overexpression of TaVP in plants induces the activity of PPi hydrolysis, leading to plants cell death. A virus‐derived small interfering RNA (vsiRNA‐20) generated from CWMV RNA1 can regulate the mRNA accumulation of TaVP in wheat. The accumulation of vsiRNA‐20 can suppress cell death induced by TaVP in a dosage‐dependent manner. Moreover, we show that the accumulation of vsiRNA‐20 can affect PPi hydrolysis and the concentration of H+ in CWMV‐infected wheat cells to create a more favorable cellular environment for CWMV replication. We propose that vsiRNA‐20 regulates TaVP expression to prevent cell death and to maintain a weak alkaline environment in cytoplasm to enhance CWMV infection in wheat. This finding may be used as a novel strategy to minimize virus pathogenicity and to develop new antiviral stratagems.

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Targeting Super-Enhancer-Driven Oncogenic Transcription by CDK7 Inhibition in Anaplastic Thyroid Carcinoma

Cao

Dang

Zheng

et al. 2019

Thyroid

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Genome-wide identification of the histone acetyltransferase gene family in Triticum aestivum

Gao

Han

et al. 2021

BMC Genomics

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Background Histone acetylation is a ubiquitous and reversible post-translational modification in eukaryotes and prokaryotes that is co-regulated by histone acetyltransferase (HAT) and histone deacetylase (HDAC). HAT activity is important for the modification of chromatin structure in eukaryotic cells, affecting gene transcription and thereby playing a crucial regulatory role in plant development. Comprehensive analyses of HAT genes have been performed in Arabidopsis thaliana, Oryza sativa, barley, grapes, tomato, litchi and Zea mays, but comparable identification and analyses have not been conducted in wheat (Triticum aestivum). Results In this study, 31 TaHATs were identified and divided into six groups with conserved gene structures and motif compositions. Phylogenetic analysis was performed to predict functional similarities between Arabidopsis thaliana, Oryza sativa and Triticum aestivum HAT genes. The TaHATs appeared to be regulated by cis-acting elements such as LTR and TC-rich repeats. The qRT–PCR analysis showed that the TaHATs were differentially expressed in multiple tissues. The TaHATs in expression also responded to temperature changes, and were all significantly upregulated after being infected by barley streak mosaic virus (BSMV), Chinese wheat mosaic virus (CWMV) and wheat yellow mosaic virus (WYMV). Conclusions These results suggest that TaHATs may have specific roles in the response to viral infection and provide a basis for further study of TaHAT functions in T. aestivum plant immunity.

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A virus-derived siRNA activates plant immunity by interfering with ROS scavenging

Liu

Zhang²,

Zhang

et al. 2021

Molecular Plant

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Tianye Zhang

A 3D Printed Hanging Drop Dripper for Tumor Spheroids Analysis Without Recovery

Chinese wheat mosaic virus‐derived vsiRNA‐20 can regulate virus infection in wheat through inhibition of vacuolar‐ (H⁺)‐PPase induced cell death

Targeting Super-Enhancer-Driven Oncogenic Transcription by CDK7 Inhibition in Anaplastic Thyroid Carcinoma

Genome-wide identification of the histone acetyltransferase gene family in Triticum aestivum

A virus-derived siRNA activates plant immunity by interfering with ROS scavenging

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Tianye Zhang

A 3D Printed Hanging Drop Dripper for Tumor Spheroids Analysis Without Recovery

Chinese wheat mosaic virus‐derived vsiRNA‐20 can regulate virus infection in wheat through inhibition of vacuolar‐ (H+)‐PPase induced cell death

Targeting Super-Enhancer-Driven Oncogenic Transcription by CDK7 Inhibition in Anaplastic Thyroid Carcinoma

Genome-wide identification of the histone acetyltransferase gene family in Triticum aestivum

A virus-derived siRNA activates plant immunity by interfering with ROS scavenging

Contact Info

Product

Resources

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Chinese wheat mosaic virus‐derived vsiRNA‐20 can regulate virus infection in wheat through inhibition of vacuolar‐ (H⁺)‐PPase induced cell death