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3. Deadline Aware Two Stage Scheduling Algorithm in Cloud Computing

Author

Indukuri R. Krishnam Raju, Penmasta Suresh Varma, G. Jose Moses, and M. V. Rama Sundari

Subjects
Earliest deadline first scheduling, Rate-monotonic scheduling, Multidisciplinary, Computer science, business.industry, Distributed computing, 020206 networking & telecommunications, Cloud computing, 02 engineering and technology, Flow shop scheduling, Dynamic priority scheduling, computer.software_genre, Round-robin scheduling, Turnaround time, Fair-share scheduling, Scheduling (computing), Shortest job next, Utility computing, Virtual machine, Two-level scheduling, 0202 electrical engineering, electronic engineering, information engineering, Resource allocation, 020201 artificial intelligence & image processing, business, computer
Abstract

Background/Objectives: Cloud computing is a large-scale distributed computing paradigm in which a pool of abstracted, virtualized, dynamically-scalable resources such as computing power, storage, platforms and services are delivered on demand to external customers over the Internet. In cloud computing scheduling is the process of deciding how to allocate resources in the form of virtual machines for the requested jobs. Methods: The proposed Deadline Aware Two Stage Scheduling in cloud computing is to schedule Virtual Machines (VM) for the requested jobs received from customers. In this model each job requires two types of VM's in a sequence to complete its task. This model allocates VM's as resource to the requested jobs based on processing time and scheduling the jobs by considering deadlines with respect to response time and waiting time. Findings and Improvements: A simulation environment was developed and analyzed to evaluate this model by considering the evaluation metrics of average turnaround time, average waiting time and violation in deadlines when compared with First Come First Serve (FCFS) and Shortest Job First (SJF) scheduling strategies. This model reduces the evaluation metrics by constant factor when compared with other scheduling approaches.

Published
2016
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9. Estrogen receptor activation remodels TEAD1 gene expression to alleviate hepatic steatosis.

Author

Sommerauer C, Gallardo-Dodd CJ, Savva C, Hases L, Birgersson M, Indukuri R, Shen JX, Carravilla P, Geng K, Nørskov Søndergaard J, Ferrer-Aumatell C, Mercier G, Sezgin E, Korach-André M, Petersson C, Hagström H, Lauschke VM, Archer A, Williams C, and Kutter C

Subjects
Animals, Female, Humans, Male, Mice, Diet, High-Fat adverse effects, Estrogens, Gene Expression, Liver metabolism, Mice, Inbred C57BL, Receptors, Estrogen genetics, Receptors, Estrogen metabolism, Receptors, Estrogen therapeutic use, TEA Domain Transcription Factors, Fatty Liver genetics, Fatty Liver metabolism, Non-alcoholic Fatty Liver Disease genetics, Non-alcoholic Fatty Liver Disease metabolism
Abstract

Sex-based differences in obesity-related hepatic malignancies suggest the protective roles of estrogen. Using a preclinical model, we dissected estrogen receptor (ER) isoform-driven molecular responses in high-fat diet (HFD)-induced liver diseases of male and female mice treated with or without an estrogen agonist by integrating liver multi-omics data. We found that selective ER activation recovers HFD-induced molecular and physiological liver phenotypes. HFD and systemic ER activation altered core liver pathways, beyond lipid metabolism, that are consistent between mice and primates. By including patient cohort data, we uncovered that ER-regulated enhancers govern central regulatory and metabolic genes with clinical significance in metabolic dysfunction-associated steatotic liver disease (MASLD) patients, including the transcription factor TEAD1. TEAD1 expression increased in MASLD patients, and its downregulation by short interfering RNA reduced intracellular lipid content. Subsequent TEAD small molecule inhibition improved steatosis in primary human hepatocyte spheroids by suppressing lipogenic pathways. Thus, TEAD1 emerged as a new therapeutic candidate whose inhibition ameliorates hepatic steatosis., (© 2024. The Author(s).)

Published
2024
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10. Ovarian ERβ cistrome and transcriptome reveal chromatin interaction with LRH-1.

Author

Birgersson M, Indukuri R, Lindquist L, Stepanauskaite L, Luo Q, Deng Q, Archer A, and Williams C

Subjects
Animals, Female, Mice, Chromatin genetics, Gene Expression Regulation, Transcriptome, Estrogen Receptor beta genetics, Ovary
Abstract

Background: Estrogen receptor beta (ERβ, Esr2) plays a pivotal role in folliculogenesis and ovulation, yet its exact mechanism of action is mainly uncharacterized., Results: We here performed ERβ ChIP-sequencing of mouse ovaries followed by complementary RNA-sequencing of wild-type and ERβ knockout ovaries. By integrating the ERβ cistrome and transcriptome, we identified its direct target genes and enriched biological functions in the ovary. This demonstrated its strong impact on genes regulating organism development, cell migration, lipid metabolism, response to hypoxia, and response to estrogen. Cell-type deconvolution analysis of the bulk RNA-seq data revealed a decrease in luteal cells and an increased proportion of theca cells and a specific type of cumulus cells upon ERβ loss. Moreover, we identified a significant overlap with the gene regulatory network of liver receptor homolog 1 (LRH-1, Nr5a2) and showed that ERβ and LRH-1 extensively bound to the same chromatin locations in granulosa cells. Using ChIP-reChIP, we corroborated simultaneous ERβ and LRH-1 co-binding at the ERβ-repressed gene Greb1 but not at the ERβ-upregulated genes Cyp11a1 and Fkbp5. Transactivation assay experimentation further showed that ERβ and LRH-1 can inhibit their respective transcriptional activity at classical response elements., Conclusions: By characterizing the genome-wide endogenous ERβ chromatin binding, gene regulations, and extensive crosstalk between ERβ and LRH-1, along with experimental corroborations, our data offer genome-wide mechanistic underpinnings of ovarian physiology and fertility., (© 2023. The Author(s).)

Published
2023
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11. ERβ in Granulosa Cell Tumors and Its Clinical Potential.

Author

Birgersson M, Indukuri R, Antonson P, Nalvarte I, Archer A, and Williams C

Subjects
Female, Humans, Estrogen Receptor beta genetics, Neoplasm Recurrence, Local, Granulosa Cell Tumor metabolism, Ovarian Neoplasms metabolism
Abstract

Granulosa cell tumors (GCTs) are rare ovarian tumors comprising an adult and a juvenile subtype. They have a generally good prognosis, but the survival rate drastically declines in patients with late-stage or recurring tumors. Due to the rarity of GCTs, the tumor type is largely understudied and lacks a specific treatment strategy. Estrogen receptor beta (ERβ/ESR2) has been found to be highly expressed in GCTs, which could be of therapeutic importance since it can be targeted with small molecules. However, its role in GCTs is not known. In this review, we summarize the current knowledge about the action of ERβ in the ovary and discuss its prospective role in GCTs., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Endocrine Society.)

Published
2023
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12. Colitis Induces Sex-Specific Intestinal Transcriptomic Responses in Mice.

Author

Hases L, Birgersson M, Indukuri R, Archer A, and Williams C

Subjects
Animals, Azoxymethane toxicity, Dextran Sulfate adverse effects, Disease Models, Animal, Female, Humans, Inflammation complications, Male, Mice, Mice, Inbred C57BL, RNA, Receptors, Glucocorticoid genetics, Transcriptome, Colitis chemically induced, Colitis complications, Colitis genetics, Colorectal Neoplasms pathology, Inflammatory Bowel Diseases metabolism
Abstract

There are significant sex differences in colorectal cancer (CRC), including in incidence, onset, and molecular characteristics. Further, while inflammatory bowel disease (IBD) is a risk factor for CRC in both sexes, men with IBD have a 60% higher risk of developing CRC compared to women. In this study, we investigated sex differences during colitis-associated CRC (CAC) using a chemically induced CAC mouse model. The mice were treated with azoxymethane (AOM) and dextran sodium sulfate (DSS) and followed for 9 and 15 weeks. We performed RNA-sequencing of colon samples from males ( n = 15) and females ( n = 15) to study different stages of inflammation and identify corresponding transcriptomic sex differences in non-tumor colon tissue. We found a significant transcriptome response to AOM/DSS treatment in both sexes, including in pathways related to inflammation and cell proliferation. Notably, we found a stronger response in males and that male-specific differentially expressed genes were involved in NFκB signaling and circadian rhythm. Further, an overrepresented proportion of male-specific gene regulations were predicted to be targets of Stat3, whereas for females, targets of the glucocorticoid receptor (Gr/Nr3c1) were overrepresented. At 15 weeks, the most apparent sex difference involved genes with functions in T cell proliferation, followed by the regulation of demethylases. The majority of sex differences were thus related to inflammation and the immune system. Our novel data, profiling the transcriptomic response to chemically induced colitis and CAC, indicate clear sex differences in CRC initiation and progression.

Published
2022
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13. ERα and ERβ Homodimers in the Same Cellular Context Regulate Distinct Transcriptomes and Functions.

Author

Song D, He H, Indukuri R, Huang Z, Stepanauskaite L, Sinha I, Haldosén LA, Zhao C, and Williams C

Subjects
Apoptosis, Cell Line, Tumor, Estradiol, Estrogens pharmacology, Female, G2 Phase Cell Cycle Checkpoints, Humans, Ligands, Oligonucleotide Array Sequence Analysis, Transcriptome, Breast Neoplasms genetics, Estrogen Receptor alpha genetics, Estrogen Receptor alpha metabolism, Estrogen Receptor beta genetics, Estrogen Receptor beta metabolism
Abstract

The two estrogen receptors ERα and ERβ are nuclear receptors that bind estrogen (E2) and function as ligand-inducible transcription factors. They are homologues and can form dimers with each other and bind to the same estrogen-response element motifs in the DNA. ERα drives breast cancer growth whereas ERβ has been reported to be anti-proliferative. However, they are rarely expressed in the same cells, and it is not fully investigated to which extent their functions are different because of inherent differences or because of different cellular context. To dissect their similarities and differences, we here generated a novel estrogen-dependent cell model where ERα homodimers can be directly compared to ERβ homodimers within the identical cellular context. By using CRISPR-cas9 to delete ERα in breast cancer MCF7 cells with Tet-Off-inducible ERβ expression, we generated MCF7 cells that express ERβ but not ERα. MCF7 (ERβ only) cells exhibited regulation of estrogen-responsive targets in a ligand-dependent manner. We demonstrated that either ER was required for MCF7 proliferation, but while E2 increased proliferation via ERα, it reduced proliferation through a G2/M arrest via ERβ. The two ERs also impacted migration differently. In absence of ligand, ERβ increased migration, but upon E2 treatment, ERβ reduced migration. E2 via ERα, on the other hand, had no significant impact on migration. RNA sequencing revealed that E2 regulated a transcriptome of around 800 genes via each receptor, but over half were specific for either ERα or ERβ (417 and 503 genes, respectively). Functional gene ontology enrichment analysis reinforced that E2 regulated cell proliferation in opposite directions depending on the ER, and that ERβ specifically impacted extracellular matrix organization. We corroborated that ERβ bound to cis-regulatory chromatin of its unique proposed migration-related direct targets ANXA9 and TFAP2C. In conclusion, we demonstrate that within the same cellular context, the two ERs regulate cell proliferation in the opposite manner, impact migration differently, and each receptor also regulates a distinct set of target genes in response to E2. The developed cell model provides a novel and valuable resource to further complement the mechanistic understanding of the two different ER isoforms., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Song, He, Indukuri, Huang, Stepanauskaite, Sinha, Haldosén, Zhao and Williams.)

Published
2022
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14. Estrogen Receptor β (ESR2) Transcriptome and Chromatin Binding in a Mantle Cell Lymphoma Tumor Model Reveal the Tumor-Suppressing Mechanisms of Estrogens.

Author

Huang D, Huang Z, Indukuri R, Bangalore Revanna C, Berglund M, Guan J, Yakimchuk K, Damdimopoulos A, Williams C, and Okret S

Abstract

Mantle cell lymphoma (MCL) is a non-Hodgkin lymphoma with one of the highest male-to-female incidence ratios. The reason for this is not clear, but epidemiological as well as experimental data have suggested a role for estrogens, particularly acting through estrogen receptor β (ESR2). To study the ESR2 effects on MCL progression, MCL cells sensitive and resistant to the Bruton tyrosine kinase inhibitor ibrutinib were grafted to mice and treated with the ESR2-selective agonist diarylpropionitrile (DPN). The results showed that the DPN treatment of mice grafted with both ibrutinib-sensitive and -resistant MCL tumors resulted in impaired tumor progression. To identify the signaling pathways involved in the impaired tumor progression following ESR2 agonist treatment, the transcriptome and ESR2 binding to target genes were investigated by genome-wide chromatin immunoprecipitation in Granta-519 MCL tumors. DPN-regulated genes were enriched in several biological processes that included cell-cell adhesion, endothelial-mesenchymal transition, nuclear factor-kappaB signaling, vasculogenesis, lymphocyte proliferation, and apoptosis. In addition, downregulation of individual genes, such as SOX11 and MALAT1, that play a role in MCL progression was also observed. Furthermore, the data suggested an interplay between the lymphoma cells and the tumor microenvironment in response to the ESR2 agonist. In conclusion, the results clarify the mechanisms by which estrogens, via ESR2, impair MCL tumor progression and provide a possible explanation for the sex-dependent difference in incidence. Furthermore, targeting ESR2 with a selective agonist may be an additional option when considering the treatment of both ibrutinib-sensitive and -resistant MCL tumors.

Published
2022
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15. An Optimized ChIP-Seq Protocol to Determine Chromatin Binding of Estrogen Receptor Beta.

Author

Indukuri R, Damdimopoulos A, and Williams C

Subjects
Chromatin genetics, Chromatin Immunoprecipitation methods, Estrogens, Chromatin Immunoprecipitation Sequencing, Estrogen Receptor beta genetics, Estrogen Receptor beta metabolism
Abstract

Estrogen regulates transcription through two nuclear receptors, ERα and ERβ, in a tissue and cellular-dependent manner. Both the receptors bind estrogen and activate transcription through direct or indirect interactions with DNA. Revealing their interactions with the chromatin is key to understanding their transcriptional activities and their biological functions. Chromatin-immunoprecipitation followed by sequencing (ChIP-Seq) is a powerful technique to map protein-DNA interactions at precise genomic locations. The genome-wide binding of ERα has been extensively studied. Similar studies of ERβ, however, have been more difficult, in part due to a lack of endogenous expression in cell lines and lack of specific antibodies. In this chapter, we provide an optimized stepwise ChIP protocol for a well-validated ERβ antibody, which is applicable for ChIP-Seq analysis of cell lines with exogenous expression of ERβ., (© 2022. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2022
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16. Genome-wide estrogen receptor β chromatin binding in human colon cancer cells reveals its tumor suppressor activity.

Author

Indukuri R, Jafferali MH, Song D, Damdimopoulos A, Hases L, Zhao C, Archer A, and Williams C

Subjects
Apoptosis, Biomarkers, Tumor genetics, Breast Neoplasms genetics, Breast Neoplasms metabolism, Breast Neoplasms pathology, Cell Adhesion, Cell Movement, Cell Proliferation, Chromatin genetics, Chromatin Immunoprecipitation, Colonic Neoplasms genetics, Colonic Neoplasms metabolism, Estrogen Receptor beta genetics, Female, Genome-Wide Association Study, Humans, Tumor Cells, Cultured, Biomarkers, Tumor metabolism, Chromatin metabolism, Colonic Neoplasms pathology, Estrogen Receptor beta metabolism, Gene Expression Regulation, Neoplastic, Genes, Tumor Suppressor, Genome, Human
Abstract

Colorectal cancer (CRC) is the third leading cause of cancer death in the western world. In women, menopausal hormone therapy has been shown to reduce CRC incidence by 20%. Studies demonstrate that estrogen activating estrogen receptor beta (ERβ) protects against CRC. ERβ is a nuclear receptor that regulates gene expression through interactions with the chromatin. This molecular mechanism is, however, not well characterized in colon. Here, we present for the first time, the cistrome of ERβ in different colon cancer cell lines. We use cell lines engineered to express ERβ, optimize and validate an ERβ antibody for chromatin-immunoprecipitation (ChIP), and perform ChIP-Seq. We identify key binding motifs, including ERE, AP-1, and TCF sites, and we determine enrichment of binding to cis-regulatory chromatin sites of genes involved in tumor development, cell migration, cell adhesion, apoptosis, and Wnt signaling pathways. We compare the corresponding cistromes of colon and breast cancer and find that they are conserved for about a third of genes, including GREB1, but that ERβ tethering to TCF and KLF family motifs is characteristic for colon. We exemplify upregulation of putative CRC tumor suppressor gene CST5 where ERβ in colon cells binds to cis-regulatory regions nearby (-351 bp) the transcriptional start site. Our work provides a foundation for understanding the mechanism of action of ERβ in CRC prevention., (© 2021 The Authors. International Journal of Cancer published by John Wiley & Sons Ltd on behalf of Union for International Cancer Control.)

Published
2021
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17. Estrogen Receptor Beta Influences the Inflammatory p65 Cistrome in Colon Cancer Cells.

Author

Indukuri R, Hases L, Archer A, and Williams C

Subjects
Apoptosis, Binding Sites, Breast Neoplasms metabolism, Cell Line, Tumor, Cell Movement, Cell Proliferation, Circadian Rhythm, Estrogens metabolism, HT29 Cells, Humans, Promoter Regions, Genetic, Signal Transduction, Colonic Neoplasms metabolism, Estrogen Receptor beta metabolism, Gene Expression Regulation, Neoplastic, Inflammation, Transcription Factor RelA metabolism
Abstract

Inflammation is a primary component of both initiation and promotion of colorectal cancer (CRC). Cytokines secreted by macrophages, including tumor necrosis factor alpha (TNFα), activates the pro-survival transcription factor complex NFκB. The precise mechanism of NFκB in CRC is not well studied, but we recently reported the genome-wide transcriptional impact of TNFα in two CRC cell lines. Further, estrogen signaling influences inflammation in a complex manner and suppresses CRC development. CRC protective effects of estrogen have been shown to be mediated by estrogen receptor beta (ERβ, ESR2 ), which also impacts inflammatory signaling of the colon. However, whether ERβ impacts the chromatin interaction (cistrome) of the main NFκB subunit p65 (RELA) is not known. We used p65 chromatin immunoprecipitation followed by sequencing (ChIP-Seq) in two different CRC cell lines, HT29 and SW480, with and without expression of ERβ. We here present the p65 colon cistrome of these two CRC cell lines. We identify that RELA and AP1 motifs are predominant in both cell lines, and additionally describe both common and cell line-specific p65 binding sites and correlate these to transcriptional changes related to inflammation, migration, apoptosis and circadian rhythm. Further, we determine that ERβ opposes a major fraction of p65 chromatin binding in HT29 cells, but enhances p65 binding in SW480 cells, thereby impacting the p65 cistrome differently in the two cell lines. However, the biological functions of the regulated genes appear to have similar roles in both cell lines. To our knowledge, this is the first time the p65 CRC cistrome is compared between different cell lines and the first time an influence by ERβ on the p65 cistrome is investigated. Our work provides a mechanistic foundation for a better understanding of how estrogen influences inflammatory signaling through NFκB in CRC cells., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Indukuri, Hases, Archer and Williams.)

Published
2021
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18. Intestinal estrogen receptor beta suppresses colon inflammation and tumorigenesis in both sexes.

Author

Hases L, Indukuri R, Birgersson M, Nguyen-Vu T, Lozano R, Saxena A, Hartman J, Frasor J, Gustafsson JÅ, Katajisto P, Archer A, and Williams C

Subjects
Animals, Cell Line, Tumor, Cell Proliferation, Female, Humans, Intestinal Mucosa pathology, Male, Mice, Mice, Inbred C57BL, NF-kappa B physiology, Sex Characteristics, Tumor Necrosis Factor-alpha pharmacology, Colitis prevention & control, Colorectal Neoplasms prevention & control, Estrogen Receptor beta physiology
Abstract

Estrogen hormones protect against colorectal cancer (CRC) and a preventative role of estrogen receptor beta (ERβ) on CRC has been supported using full knockout animals. However, it is unclear through which cells or organ ERβ mediates this effect. To investigate the functional role of intestinal ERβ during colitis-associated CRC we used intestine-specific ERβ knockout mice treated with azoxymethane and dextran sodium sulfate, followed by ex vivo organoid culture to corroborate intrinsic effects. We explored genome-wide impact on TNFα signaling using human CRC cell lines and chromatin immunoprecipitation assay to mechanistically characterize the regulation of ERβ. Increased tumor formation in males and tumor size in females was noted upon intestine-specific ERβ knockout, accompanied by enhanced local expression of TNFα, deregulation of key NFκB targets, and increased colon ulceration. Unexpectedly, we noted especially strong effects in males. We corroborated that intestinal ERβ protects against TNFα-induced damage intrinsically, and characterized an underlying genome-wide signaling mechanism in CRC cell lines whereby ERβ binds to cis-regulatory chromatin areas of key NFκB regulators. Our results support a protective role of intestinal ERβ against colitis-associated CRC, proposing new therapeutic strategies., (Copyright © 2020 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published
2020
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