Your search keyword '"Channathodiyil P"' showing total 9 results

1. Glyoxal fixation facilitates transcriptome analysis after antigen staining and cell sorting by flow cytometry.

Author

Prasanna Channathodiyil and Jonathan Houseley

Subjects

Medicine, Science

Abstract

A simple method for extraction of high quality RNA from cells that have been fixed, stained and sorted by flow cytometry would allow routine transcriptome analysis of highly purified cell populations and single cells. However, formaldehyde fixation impairs RNA extraction and inhibits RNA amplification. Here we show that good quality RNA can be readily extracted from stained and sorted mammalian cells if formaldehyde is replaced by glyoxal-a well-characterised fixative that is widely compatible with immunofluorescent staining methods. Although both formaldehyde and glyoxal efficiently form protein-protein crosslinks, glyoxal does not crosslink RNA to proteins nor form stable RNA adducts, ensuring that RNA remains accessible and amenable to enzymatic manipulation after glyoxal fixation. We find that RNA integrity is maintained through glyoxal fixation, permeabilisation with methanol or saponin, indirect immunofluorescent staining and flow sorting. RNA can then be extracted by standard methods and processed into RNA-seq libraries using commercial kits; mRNA abundances measured by poly(A)+ RNA-seq correlate well between freshly harvested cells and fixed, stained and sorted cells. We validate the applicability of this approach to flow cytometry by staining MCF-7 cells for the intracellular G2/M-specific antigen cyclin B1 (CCNB1), and show strong enrichment for G2/M-phase cells based on transcriptomic data. Switching to glyoxal fixation with RNA-compatible staining methods requires only minor adjustments of most existing staining and sorting protocols, and should facilitate routine transcriptomic analysis of sorted cells.

Published

2021

2. EG-01 * EPIGENETIC INACTIVATION OF ARGININE BIOSYNTHESIS PATHWAY IN PAEDIATRIC HIGH GRADE GLIOMA

Author

Channathodiyil, P., primary, Kardooni, H., additional, Khozoie, C., additional, Nelofer, S., additional, Darling, J., additional, Morris, M., additional, and Warr, T., additional

Published

2014

3. O12 * GENETIC CHARACTERISATION OF PI3K-RELATED PATHWAYS IN PAEDIATRIC GBM IN VITRO

Author

Channathodiyil, P., primary, Kardooni, H., additional, Potter, N., additional, Darling, J., additional, Morris, M., additional, and Warr, T., additional

Published

2014

4. Reply: Cytotoxic effect of disulfiram/copper on human glioblastoma cell lines and ALDH-positive cancer-stem-like cells

Author

Liu, P, primary, Brown, S, additional, Channathodiyil, P, additional, Kannappan, V, additional, Armesilla, A L, additional, Darling, J L, additional, and Wang, W, additional

Published

2013

5. Cytotoxic effect of disulfiram/copper on human glioblastoma cell lines and ALDH-positive cancer-stem-like cells

Author

Liu, P, primary, Brown, S, additional, Goktug, T, additional, Channathodiyil, P, additional, Kannappan, V, additional, Hugnot, J-P, additional, Guichet, P-O, additional, Bian, X, additional, Armesilla, A L, additional, Darling, J L, additional, and Wang, W, additional

Published

2012

6. 1018 Disulfiram, an Antialcoholism Drug, Targets Breast Cancer and Glioblastoma Stem-like Cells

Author

Liu, P., primary, Brown, S., additional, Channathodiyil, P., additional, Kannappan, V., additional, Tang, J., additional, Armesilla, A.L., additional, Darling, J.L., additional, and Wang, W., additional

Published

2012

7. The GALNT9, BNC1 and CCDC8 genes are frequently epigenetically dysregulated in breast tumours that metastasise to the brain.

Author

Pangeni, Rajendra P., Channathodiyil, Prasanna, Huen, David S., Eagles, Lawrence W., Johal, Balraj K., Pasha, Dawar, Hadjistephanou, Natasa, Nevell, Oliver, Davies, Claire L., Adewumi, Ayobami I., Khanom, Hamida, Samra, Ikroop S., Buzatto, Vanessa C., Chandrasekaran, Preethi, Shinawi, Thoraia, Dawson, Timothy P., Ashton, Katherine M., Davis, Charles, Brodbelt, Andrew R., and Jenkinson, Michael D.

Published

2015

8. Escape from G1 arrest during acute MEK inhibition drives the acquisition of drug resistance.

Author

Channathodiyil P, May K, Segonds-Pichon A, Smith PD, Cook SJ, and Houseley J

Abstract

Mutations and gene amplifications that confer drug resistance emerge frequently during chemotherapy, but their mechanism and timing are poorly understood. Here, we investigate BRAF V600E amplification events that underlie resistance to the MEK inhibitor selumetinib (AZD6244/ARRY-142886) in COLO205 cells, a well-characterized model for reproducible emergence of drug resistance, and show that BRAF amplifications acquired de novo are the primary cause of resistance. Selumetinib causes long-term G1 arrest accompanied by reduced expression of DNA replication and repair genes, but cells stochastically re-enter the cell cycle during treatment despite continued repression of pERK1/2. Most DNA replication and repair genes are re-expressed as cells enter S and G2; however, mRNAs encoding a subset of factors important for error-free replication and chromosome segregation, including TIPIN, PLK2 and PLK3, remain at low abundance. This suggests that DNA replication following escape from G1 arrest in drug is more error prone and provides a potential explanation for the DNA damage observed under long-term RAF-MEK-ERK1/2 pathway inhibition. To test the hypothesis that escape from G1 arrest in drug promotes de novo BRAF amplification, we exploited the combination of palbociclib and selumetinib. Combined treatment with selumetinib and a dose of palbociclib sufficient to reinforce G1 arrest in selumetinib-sensitive cells, but not to impair proliferation of resistant cells, delays the emergence of resistant colonies, meaning that escape from G1 arrest is critical in the formation of resistant clones. Our findings demonstrate that acquisition of MEK inhibitor resistance often occurs through de novo gene amplification and can be suppressed by impeding cell cycle entry in drug., (© The Author(s) 2022. Published by Oxford University Press on behalf of NAR Cancer.)

Published

2022

9. Glyoxal fixation facilitates transcriptome analysis after antigen staining and cell sorting by flow cytometry.

Author

Channathodiyil P and Houseley J

Subjects

Humans, MCF-7 Cells, Antigens chemistry, Fixatives chemistry, Flow Cytometry, Gene Expression Profiling, Glyoxal chemistry, Staining and Labeling

Abstract

A simple method for extraction of high quality RNA from cells that have been fixed, stained and sorted by flow cytometry would allow routine transcriptome analysis of highly purified cell populations and single cells. However, formaldehyde fixation impairs RNA extraction and inhibits RNA amplification. Here we show that good quality RNA can be readily extracted from stained and sorted mammalian cells if formaldehyde is replaced by glyoxal-a well-characterised fixative that is widely compatible with immunofluorescent staining methods. Although both formaldehyde and glyoxal efficiently form protein-protein crosslinks, glyoxal does not crosslink RNA to proteins nor form stable RNA adducts, ensuring that RNA remains accessible and amenable to enzymatic manipulation after glyoxal fixation. We find that RNA integrity is maintained through glyoxal fixation, permeabilisation with methanol or saponin, indirect immunofluorescent staining and flow sorting. RNA can then be extracted by standard methods and processed into RNA-seq libraries using commercial kits; mRNA abundances measured by poly(A)+ RNA-seq correlate well between freshly harvested cells and fixed, stained and sorted cells. We validate the applicability of this approach to flow cytometry by staining MCF-7 cells for the intracellular G2/M-specific antigen cyclin B1 (CCNB1), and show strong enrichment for G2/M-phase cells based on transcriptomic data. Switching to glyoxal fixation with RNA-compatible staining methods requires only minor adjustments of most existing staining and sorting protocols, and should facilitate routine transcriptomic analysis of sorted cells., Competing Interests: The authors have declared that no competing interests exist.

Published

2021