Search

Your search keyword '"Kumbhani R"' showing total 17 results
Start Over Author "Kumbhani R" Search Limiters Full Text
17 results on '"Kumbhani R"'

1. LGG-58. Understanding the transcriptional heterogeneity of pediatric low-grade gliomas and its implication for tumor pathophysiology

Author

Boisvert, M, Perera, AA, Condurat, AL, Jeang, J, Tsai, JW, Novikov, D, Zhou, K, Chacon, M, DiGiacomo, J, Kumbhani, R, Wang, D, Taylor, MD, Hansford, JR, Ludlow, L, Jabado, N, Ligon, KL, Beroukhim, R, Bandopadhayay, P, Jones, DTW, Boisvert, M, Perera, AA, Condurat, AL, Jeang, J, Tsai, JW, Novikov, D, Zhou, K, Chacon, M, DiGiacomo, J, Kumbhani, R, Wang, D, Taylor, MD, Hansford, JR, Ludlow, L, Jabado, N, Ligon, KL, Beroukhim, R, Bandopadhayay, P, and Jones, DTW

Abstract

Pediatric low-grade gliomas (pLGGs) are the most frequent brain tumors in children and comprise a heterogeneous group of tumors with different locations, histologic subtypes, ages at presentation, and clinical behavior. Tumors frequently respond to treatment with chemotherapy or surgical removal, but they can regrow after a period of quiescence, requiring further therapy. Thus, a deeper understanding of the molecular processes involved in these tumors is required to develop therapeutic strategies that are effective against their disease mechanisms. To better understand the cellular behaviors of this heterogenous group of tumors, we have employed single-cell and single-nuclei RNA sequencing technologies to analyze a large-scale dataset (>250,000 cells) of pLGGs. Analysis of this data identified a heterogenous population of cell types and cell states, detecting mature and progenitor-like astrocytes and oligodendrocytes, as well as cells exhibiting senescence or cycling programs. Moreover, we identify a significant immune infiltrate, comprised primarily of microglia. In addition to heterogeneity within pLGG tumors, heterogeneity between LGG subtypes represents another layer that stratifies pLGG biology. We performed a compositional analysis of the cell types present in these tumors and compared transcription signatures and gene expression programs across shared cellular populations of histologically and genetically distinct pLGGs. Finally, we optimized our integration and batch correction analyses by using external 293T cells as spike in controls during our single-cell and single-nuclei data generation steps to determine the most suitable method for batch-effect removal. Our analysis of human pLGGs at the single-cell and single-nuclei resolution provides critical insight into the heterogenous biological activities that constitute these tumors.

Published
2022

14. Shared Mechanisms Drive Ocular Following and Motion Perception.

Author

Kreyenmeier P, Kumbhani R, Movshon JA, and Spering M

Subjects
Humans, Male, Female, Adult, Young Adult, Pattern Recognition, Visual physiology, Motion Perception physiology, Eye Movements physiology, Photic Stimulation methods
Abstract

How features of complex visual patterns are combined to drive perception and eye movements is not well understood. Here we simultaneously assessed human observers' perceptual direction estimates and ocular following responses (OFR) evoked by moving plaids made from two summed gratings with varying contrast ratios. When the gratings were of equal contrast, observers' eye movements and perceptual reports followed the motion of the plaid pattern. However, when the contrasts were unequal, eye movements and reports during early phases of the OFR were biased toward the direction of the high-contrast grating component; during later phases, both responses followed the plaid pattern direction. The shift from component- to pattern-driven behavior resembles the shift in tuning seen under similar conditions in neuronal responses recorded from monkey MT. Moreover, for some conditions, pattern tracking and perceptual reports were correlated on a trial-by-trial basis. The OFR may therefore provide a precise behavioral readout of the dynamics of neural motion integration for complex visual patterns., Competing Interests: The authors declare no competing financial interests., (Copyright © 2024 Kreyenmeier et al.)

Published
2024
Full Text
View/download PDF

15. FOXR2 Is an Epigenetically Regulated Pan-Cancer Oncogene That Activates ETS Transcriptional Circuits.

Author

Tsai JW, Cejas P, Wang DK, Patel S, Wu DW, Arounleut P, Wei X, Zhou N, Syamala S, Dubois FPB, Crane A, Pelton K, Vogelzang J, Sousa C, Baguette A, Chen X, Condurat AL, Dixon-Clarke SE, Zhou KN, Lu SD, Gonzalez EM, Chacon MS, Digiacomo JJ, Kumbhani R, Novikov D, Hunter J, Tsoli M, Ziegler DS, Dirksen U, Jager N, Balasubramanian GP, Kramm CM, Nathrath M, Bielack S, Baker SJ, Zhang J, McFarland JM, Getz G, Aguet F, Jabado N, Witt O, Pfister SM, Ligon KL, Hovestadt V, Kleinman CL, Long H, Jones DTW, Bandopadhayay P, and Phoenix TN

Subjects
Adult, Carcinogenesis genetics, Cell Proliferation, Child, Epigenesis, Genetic, Humans, Male, Oncogenes genetics, Proto-Oncogene Proteins c-ets genetics, Proto-Oncogene Proteins c-ets metabolism, Transcriptional Activation, Forkhead Transcription Factors genetics, Neoplasms genetics
Abstract

Forkhead box R2 (FOXR2) is a forkhead transcription factor located on the X chromosome whose expression is normally restricted to the testis. In this study, we performed a pan-cancer analysis of FOXR2 activation across more than 10,000 adult and pediatric cancer samples and found FOXR2 to be aberrantly upregulated in 70% of all cancer types and 8% of all individual tumors. The majority of tumors (78%) aberrantly expressed FOXR2 through a previously undescribed epigenetic mechanism that involves hypomethylation of a novel promoter, which was functionally validated as necessary for FOXR2 expression and proliferation in FOXR2-expressing cancer cells. FOXR2 promoted tumor growth across multiple cancer lineages and co-opted ETS family transcription circuits across cancers. Taken together, this study identifies FOXR2 as a potent and ubiquitous oncogene that is epigenetically activated across the majority of human cancers. The identification of hijacking of ETS transcription circuits by FOXR2 extends the mechanisms known to active ETS transcription factors and highlights how transcription factor families cooperate to enhance tumorigenesis., Significance: This work identifies a novel promoter that drives aberrant FOXR2 expression and delineates FOXR2 as a pan-cancer oncogene that specifically activates ETS transcriptional circuits across human cancers. See related commentary by Liu and Northcott, p. 2977., (©2022 The Authors; Published by the American Association for Cancer Research.)

Published
2022
Full Text
View/download PDF

16. PPM1D mutations are oncogenic drivers of de novo diffuse midline glioma formation.

Author

Khadka P, Reitman ZJ, Lu S, Buchan G, Gionet G, Dubois F, Carvalho DM, Shih J, Zhang S, Greenwald NF, Zack T, Shapira O, Pelton K, Hartley R, Bear H, Georgis Y, Jarmale S, Melanson R, Bonanno K, Schoolcraft K, Miller PG, Condurat AL, Gonzalez EM, Qian K, Morin E, Langhnoja J, Lupien LE, Rendo V, Digiacomo J, Wang D, Zhou K, Kumbhani R, Guerra Garcia ME, Sinai CE, Becker S, Schneider R, Vogelzang J, Krug K, Goodale A, Abid T, Kalani Z, Piccioni F, Beroukhim R, Persky NS, Root DE, Carcaboso AM, Ebert BL, Fuller C, Babur O, Kieran MW, Jones C, Keshishian H, Ligon KL, Carr SA, Phoenix TN, and Bandopadhayay P

Subjects
Adolescent, Adult, Animals, Brain Stem Neoplasms genetics, Carcinogenesis genetics, Cell Cycle, Child, Child, Preschool, DNA Damage, Disease Models, Animal, Female, HEK293 Cells, Humans, Infant, Male, Mice, Proto-Oncogene Proteins c-mdm2, Transcriptome, Tumor Suppressor Protein p53 genetics, Young Adult, Glioma genetics, Mutation, Oncogenes genetics, Protein Phosphatase 2C genetics
Abstract

The role of PPM1D mutations in de novo gliomagenesis has not been systematically explored. Here we analyze whole genome sequences of 170 pediatric high-grade gliomas and find that truncating mutations in PPM1D that increase the stability of its phosphatase are clonal driver events in 11% of Diffuse Midline Gliomas (DMGs) and are enriched in primary pontine tumors. Through the development of DMG mouse models, we show that PPM1D mutations potentiate gliomagenesis and that PPM1D phosphatase activity is required for in vivo oncogenesis. Finally, we apply integrative phosphoproteomic and functional genomics assays and find that oncogenic effects of PPM1D truncation converge on regulators of cell cycle, DNA damage response, and p53 pathways, revealing therapeutic vulnerabilities including MDM2 inhibition., (© 2022. The Author(s).)

Published
2022
Full Text
View/download PDF

17. Teriparatide (PTH 1-34) treatment increases peripheral hematopoietic stem cells in postmenopausal women.

Author

Yu EW, Kumbhani R, Siwila-Sackman E, DeLelys M, Preffer FI, Leder BZ, and Wu JY

Subjects
B-Lymphocytes cytology, B-Lymphocytes drug effects, Biomarkers metabolism, Bone Density drug effects, Bone and Bones drug effects, Bone and Bones metabolism, Cell Count, Cell Lineage drug effects, Female, Hematopoietic Stem Cells drug effects, Humans, Middle Aged, T-Lymphocytes cytology, T-Lymphocytes drug effects, Hematopoietic Stem Cells cytology, Postmenopause drug effects, Teriparatide pharmacology
Abstract

Cells of the osteoblast lineage play an important role in regulating the hematopoietic stem cell (HSC) niche and early B-cell development in animal models, perhaps via parathyroid hormone (PTH)-dependent mechanisms. There are few human clinical studies investigating this phenomenon. We studied the impact of long-term daily teriparatide (PTH 1-34) treatment on cells of the hematopoietic lineage in postmenopausal women. Twenty-three postmenopausal women at high risk of fracture received teriparatide 20 mcg sc daily for 24 months as part of a prospective longitudinal trial. Whole blood measurements were obtained at baseline, 3, 6, 12, and 18 months. Flow cytometry was performed to identify hematopoietic subpopulations, including HSCs (CD34+/CD45(moderate); ISHAGE protocol) and early transitional B cells (CD19+, CD27-, IgD+, CD24[hi], CD38[hi]). Serial measurements of spine and hip bone mineral density (BMD) as well as serum P1NP, osteocalcin, and CTX were also performed. The average age of study subjects was 64 ± 5 years. We found that teriparatide treatment led to an early increase in circulating HSC number of 40% ± 14% (p = 0.004) by month 3, which persisted to month 18 before returning to near baseline by 24 months. There were no significant changes in transitional B cells or total B cells over the course of the study period. In addition, there were no differences in complete blood count profiles as quantified by standard automated flow cytometry. Interestingly, the peak increase in HSC number was inversely associated with increases in bone markers and spine BMD. Daily teriparatide treatment for osteoporosis increases circulating HSCs by 3 to 6 months in postmenopausal women. This may represent a proliferation of marrow HSCs or increased peripheral HSC mobilization. This clinical study establishes the importance of PTH in the regulation of the HSC niche within humans. © 2014 American Society for Bone and Mineral Research., (© 2014 American Society for Bone and Mineral Research.)

Published
2014
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results