Your search keyword '"Majid Kazemian"' showing total 251 results

1. Inflammation impacts androgen receptor signaling in basal prostate stem cells through interleukin 1 receptor antagonist

Author

Paula O. Cooper, Jiang Yang, Hsing-Hui Wang, Meaghan M. Broman, Shyaman Madhawa Jayasundara, Subhransu Sekhar Sahoo, Bingyu Yan, Gada D. Awdalkreem, Gregory M. Cresswell, Liang Wang, Emery Goossens, Nadia A. Lanman, Rebecca W. Doerge, Faye Zheng, Liang Cheng, Saeed Alqahtani, Scott A. Crist, Robert E. Braun, Majid Kazemian, Travis J. Jerde, and Timothy L. Ratliff

Subjects

Biology (General), QH301-705.5

Abstract

Abstract Chronic prostate inflammation in patients with benign prostate hyperplasia (BPH) correlates with the severity of symptoms. How inflammation contributes to prostate enlargement and/or BPH symptoms and the underlying mechanisms remain unclear. In this study, we utilize a unique transgenic mouse model that mimics chronic non-bacterial prostatitis in men and investigate the impact of inflammation on androgen receptor (AR) in basal prostate stem cells (bPSC) and their differentiation in vivo. We find that inflammation significantly enhances AR levels and activity in bPSC. More importantly, we identify interleukin 1 receptor antagonist (IL-1RA) as a crucial regulator of AR in bPSC during inflammation. IL-1RA is one of the top molecules upregulated by inflammation, and inhibiting IL-1RA reverses the enhanced AR activity in organoids derived from inflamed bPSC. Additionally, IL-1RA appears to activate AR by counteracting IL-1α's inhibitory effect. Furthermore, using a lineage tracing model, we observe that inflammation induces bPSC proliferation and differentiation into luminal cells even under castrate conditions, indicating that AR activation driven by inflammation is sufficient to promote bPSC proliferation and differentiation. Taken together, our study uncovers mechanisms through which inflammation modulates AR signaling in bPSC and induces bPSC luminal differentiation that may contribute to prostate hyperplasia.

Published

2024

2. Unbiased discovery of cancer pathways and therapeutics using Pathway Ensemble Tool and Benchmark

Author

Luopin Wang, Aryamav Pattnaik, Subhransu Sekhar Sahoo, Ella G. Stone, Yuxin Zhuang, Annaleigh Benton, Md Tajmul, Srishti Chakravorty, Deepika Dhawan, My An Nguyen, Isabella Sirit, Kyle Mundy, Christopher J. Ricketts, Marco Hadisurya, Garima Baral, Samantha L. Tinsley, Nicole L. Anderson, Smriti Hoda, Scott D. Briggs, Hristos Z. Kaimakliotis, Brittany L. Allen-Petersen, W. Andy Tao, W. Marston Linehan, Deborah W. Knapp, Jason A. Hanna, Matthew R. Olson, Behdad Afzali, and Majid Kazemian

Subjects

Science

Abstract

Abstract Correctly identifying perturbed biological pathways is a critical step in uncovering basic disease mechanisms and developing much-needed therapeutic strategies. However, whether current tools are optimal for unbiased discovery of relevant pathways remains unclear. Here, we create “Benchmark” to critically evaluate existing tools and find that most function sub-optimally. We thus develop the “Pathway Ensemble Tool” (PET), which outperforms existing methods. Deploying PET, we identify prognostic pathways across 12 cancer types. PET-identified prognostic pathways offer additional insights, with genes within these pathways serving as reliable biomarkers for clinical outcomes. Additionally, normalizing these pathways using drug repurposing strategies represents therapeutic opportunities. For example, the top predicted repurposed drug for bladder cancer, a CDK2/9 inhibitor, represses cell growth in vitro and in vivo. We anticipate that using Benchmark and PET for unbiased pathway discovery will offer additional insights into disease mechanisms across a spectrum of diseases, enabling biomarker discovery and therapeutic strategies.

Published

2024

3. DDX5 deficiency drives non-canonical NF-κB activation and NRF2 expression, influencing sorafenib response and hepatocellular carcinoma progression

Author

Zhili Li, Woojun Kim, Sagar Utturkar, Bingyu Yan, Nadia Atallah Lanman, Bennett D. Elzey, Majid Kazemian, Yoon Yeo, and Ourania Andrisani

Subjects

Cytology, QH573-671

Abstract

Abstract In advanced hepatocellular carcinoma (HCC), RNA helicase DDX5 regulates the Wnt/β-catenin-ferroptosis axis, influencing the efficacy of the multi-tyrosine kinase inhibitor (mTKI) sorafenib. DDX5 inhibits Wnt/β-catenin signaling, preventing sorafenib-induced ferroptosis escape. Sorafenib/mTKIs reduce DDX5 expression, correlating with poor patient survival post-sorafenib treatment. Notably, DDX5-knockout in HCC cells activates Wnt/β-catenin signaling persistently. Herein, we investigate the mechanistic impact of Wnt/β-catenin activation resulting from DDX5 downregulation in the progression and treatment of HCC. RNAseq analyses identified shared genes repressed by DDX5 and upregulated by sorafenib, including Wnt signaling genes, NF-κB-inducing kinase (NIK) essential for non-canonical NF-κB (p52/RelB) activation, and cytoprotective transcription factor NRF2. We demonstrate, Wnt/β-catenin activation induced NIK transcription, leading to non-canonical NF-κB activation, which subsequently mediated NRF2 transcription. Additionally, DDX5 deficiency extended NRF2 protein half-life by inactivating KEAP1 through p62/SQSTM1 stabilization. In a preclinical HCC mouse model, NRF2 knockdown or DDX5 overexpression restricted tumor growth upon sorafenib treatment, via induction of ferroptosis. Importantly, DDX5-knockout HCC cells exhibited elevated expression of Wnt signaling genes, NIK, p52/RelB, and NRF2-regulated genes, regardless of sorafenib treatment. Transcriptomic analyses of HCCs from TCGA and the Stelic Animal Model (STAM) of non-alcoholic steatohepatitis revealed elevated expression of these interconnected pathways in the context of DDX5 downregulation. In conclusion, DDX5 deficiency triggers Wnt/β-catenin signaling, promoting p52/RelB and NRF2 activation, thereby enabling ferroptosis evasion upon sorafenib treatment. Similarly, independent of sorafenib, DDX5 deficiency in liver tumors enhances activation and gene expression of these interconnected pathways, underscoring the clinical relevance of DDX5 deficiency in HCC progression and therapeutic response.

Published

2024

4. RNA helicase DDX5 modulates sorafenib sensitivity in hepatocellular carcinoma via the Wnt/β-catenin–ferroptosis axis

Author

Zhili Li, Claude Caron de Fromentel, Woojun Kim, Wen-Hung Wang, Jiazeng Sun, Bingyu Yan, Sagar Utturkar, Nadia Atallah Lanman, Bennett D. Elzey, Yoon Yeo, Hao Zhang, Majid Kazemian, Massimo Levrero, and Ourania Andrisani

Subjects

Cytology, QH573-671

Abstract

Abstract Reduced expression of the RNA helicase DDX5 associated with increased hepatocellular carcinoma (HCC) tumor grade and poor patient survival following treatment with sorafenib. While immunotherapy is the first-line treatment for HCC, sorafenib and other multi-tyrosine kinase inhibitors (mTKIs) are widely used when immunotherapy is contra-indicated or fails. Herein, we elucidate the role of DDX5 in sensitizing HCC to sorafenib, offering new therapeutic strategies. Treatment of various human HCC cell lines with sorafenib/mTKIs downregulated DDX5 in vitro and in preclinical HCC models. Conversely, DDX5 overexpression reduced the viability of sorafenib-treated cells via ferroptosis, suggesting a role for DDX5 in sorafenib sensitivity. RNAseq of wild-type vs. DDX5-knockdown cells treated with or without sorafenib identified a set of common genes repressed by DDX5 and upregulated by sorafenib. This set significantly overlaps with Wnt signaling genes, including Disheveled-1 (DVL1), an indispensable Wnt activator and prognostic indicator of poor survival for sorafenib-treated patients. DDX5-knockout (DDX5KO) HCC cells exhibited DVL1 induction, Wnt/β-catenin pathway activation, and ferroptosis upon inhibition of canonical Wnt signaling. Consistently, xenograft HCC tumors exhibited reduced growth by inhibition of Wnt/β-catenin signaling via induction of ferroptosis. Significantly, overexpression of DDX5 in HCC xenografts repressed DVL1 expression and increased ferroptosis, resulting in reduced tumor growth by sorafenib. We conclude that DDX5 downregulation by sorafenib mediates adaptive resistance by activating Wnt/β-catenin signaling, leading to ferroptosis escape. Conversely, overexpression of DDX5 in vivo enhances the anti-tumor efficacy of sorafenib by suppressing Wnt/β-catenin activation and induction of ferroptosis. Thus, DDX5 overexpression in combination with mTKIs is a promising therapeutic strategy for HCC.

Published

2023

5. Soft X-Ray Phase Nanomicroscopy of Micrometer-Thick Magnets

Author

Jeffrey Neethirajan, Benedikt J. Daurer, Marisel Di Pietro Martínez, Aleš Hrabec, Luke Turnbull, Rikako Yamamoto, Marina Raboni Ferreira, Aleš Štefančič, Daniel Alexander Mayoh, Geetha Balakrishnan, Zhaowen Pei, Pengfei Xue, Liao Chang, Emilie Ringe, Richard Harrison, Sergio Valencia, Majid Kazemian, Burkhard Kaulich, and Claire Donnelly

Subjects

Physics, QC1-999

Abstract

Imaging of nanoscale magnetic textures within extended material systems is of critical importance to both fundamental research and technological applications. While high-resolution magnetic imaging of thin nanoscale samples is well established with electron and soft x-ray microscopy, the extension to micrometer-thick systems currently requires hard x rays, which limits high-resolution imaging to rare-earth magnets. Here, we overcome this limitation by establishing soft x-ray magnetic imaging of micrometer-thick systems using the pre-edge phase x-ray magnetic circular dichroism signal, thus making possible the study of a wide range of magnetic materials. By performing dichroic spectroptychography, we demonstrate high spatial resolution imaging of magnetic samples up to 1.7 μm thick, an order of magnitude higher than conventionally possible with soft x-ray absorption-based techniques. We demonstrate the applicability of the technique by harnessing the pre-edge phase to image thick chiral helimagnets, and naturally occurring magnetite particles, gaining insight into their three-dimensional magnetic configuration. This new regime of magnetic imaging makes possible the study of extended non-rare-earth systems that have until now been inaccessible, including magnetic textures for future spintronic applications, non-rare-earth permanent magnets for energy harvesting, and the magnetic configuration of giant magnetofossils.

Published

2024

6. Kaposi's sarcoma herpesvirus latency-associated nuclear antigen broadly regulates viral gene expression and is essential for lytic infection.

Author

Shijun Li, Mengbo Wang, Nicholas Van Sciver, Agnieszka Szymula, Vinayak Sadasivam Tumuluri, Athira George, Akshaya Ramachandran, Komal Raina, Catarina N Costa, Bo Zhao, Majid Kazemian, J Pedro Simas, and Kenneth M Kaye

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Kaposi's sarcoma herpesvirus (KSHV) is a leading cause of malignancy in AIDS and current therapies are limited. Like all herpesviruses, KSHV infection can be latent or lytic. KSHV latency-associated nuclear antigen (LANA) is essential for viral genome persistence during latent infection. LANA also maintains latency by antagonizing expression and function of the KSHV lytic switch protein, RTA. Here, we find LANA null KSHV is not capable of lytic replication, indicating a requirement for LANA. While LANA promoted both lytic and latent gene expression in cells partially permissive for lytic infection, it repressed expression in non-permissive cells. Importantly, forced RTA expression in non-permissive cells led to induction of lytic infection and LANA switched to promote, rather than repress, most lytic viral gene expression. When basal viral gene expression levels were high, LANA promoted expression, but repressed expression at low basal levels unless RTA expression was forcibly induced. LANA's effects were broad, but virus gene specific, extending to an engineered, recombinant viral GFP under control of host EF1α promoter, but not to host EF1α. Together, these results demonstrate that, in addition to its essential role in genome maintenance, LANA broadly regulates viral gene expression, and is required for high levels of lytic gene expression during lytic infection. Strategies that target LANA are expected to abolish KSHV infection.

Published

2024

7. Tox induces T cell IL-10 production in a BATF-dependent manner

Author

D. Alejandro Canaria, J. Alejandra Rodriguez, Luopin Wang, Franklin J. Yeo, Bingyu Yan, Mengbo Wang, Charlotte Campbell, Majid Kazemian, and Matthew R. Olson

Subjects

T cell differentiation, BATF/JUN/IRF4 complex, TOX, IL-10, transcription factors (TF) S, Immunologic diseases. Allergy, RC581-607

Abstract

Tox is a member of the high mobility group (HMG)-Box transcription factors and plays important roles in thymic T cell development. Outside of the thymus, however, Tox is also highly expressed by CD8 and CD4 T cells in various states of activation and in settings of cancer and autoimmune disease. In CD4 T cells, Tox has been primarily studied in T follicular helper (TFH) cells where it, along with Tox2, promotes TFH differentiation by regulating key TFH-associated genes and suppressing CD4 cytotoxic T cell differentiation. However, the role of Tox in other T helper (Th) cell subtypes is less clear. Here, we show that Tox is expressed in several physiologically-activated Th subtypes and its ectopic expression enhances the in vitro differentiation of Th2 and T regulatory (Treg) cells. Tox overexpression in unpolarized Th cells also induced the expression of several genes involved in cell activation (Pdcd1), cellular trafficking (Ccl3, Ccl4, Xcl1) and suppressing inflammation (Il10) across multiple Th subtypes. We found that Tox binds the regulatory regions of these genes along with the transcription factors BATF, IRF4, and JunB and that Tox-induced expression of IL-10, but not PD-1, is BATF-dependent. Based on these data, we propose a model where Tox regulates Th cell chemotactic genes involved in facilitating dendritic cell-T cell interactions and aids in the resolution or prevention of inflammation through the production of IL-10.

Published

2023

8. Synchrotron-Based X-ray Photoelectron Microscopy of LMO/LAGP/Cu Thin-Film Solid-State Lithium Metal Batteries

Author

Majid Kazemian, Matteo Amati, Luca Gregoratti, Maya Kiskinova, and Benedetto Bozzini

Subjects

solid-state batteries, solid electrolyte, spectromicroscopy, SPEM, XPS, LAGP, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Industrial electrochemistry, TP250-261

Abstract

Solid-state batteries (SSB), characterized by solid-state electrolytes—in particular inorganic ones (ISSE)—are an ideal option for the safe implementation of metallic Li anodes. Even though SSBs with ISSEs have been extensively investigated over the last two decades, they still exhibit a series of technological drawbacks. In fact, mechano-chemical issues, mainly the stability of the electrolyte/anode interface, hinder their widespread application. The present investigation focusses on a thin-film LMO (Lithium-Manganese-Oxide)/LAGP (LiAlGe Phosphate)/Copper, anodeless Lithium-metal battery and explores the morphochemical evolution of the electrode/electrolyte interfaces with synchrotron-based Scanning Photoelectron Microscopy (SPEM) of intact pristine and cycled cells. Chemical images were acquired with submicrometer resolution, to highlight the coupled geometrical and chemical-state changes caused by electrochemical ageing. Geometrical changes of the electrolyte/cathode interface were induced by periodic volume changes, causing de-cohesion of the solid-solid contact, but no chemical-state changes accompany the cathodic damaging mode. Instead, shape changes of the electrolyte/anode region pinpoint the correlation between mechanical damaging with the decomposition of the LAGP ISSE, due to the reduction of Ge, triggered by the contact with elemental Li. The micro-spectroscopic approach adopted in this study enabled the assessment of the highly localized nature of the cathodic and anodic degradation modes in SSB devices and to single out the chemical and mechanical contributions.

Published

2023

9. Nanoscale correlative X-ray spectroscopy and ptychography of carious dental enamel

Author

Cyril Besnard, Ali Marie, Sisini Sasidharan, Petr Buček, Jessica M. Walker, Julia E. Parker, Thomas E.J. Moxham, Benedikt Daurer, Burkhard Kaulich, Majid Kazemian, Richard M. Shelton, Gabriel Landini, and Alexander M. Korsunsky

Subjects

Human enamel caries, Synchrotron correlative nanoanalysis, X-ray fluorescence spectroscopy, X-ray differential phase contrast, X-ray ptychography, FIB-SEM, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

This study reports the characterisation of human dental enamel caries using synchrotron nanoscale correlative ptychography and spectroscopic mapping in combination with scanning electron microscopy. A lamella ̴2.4 µm thick was extracted from a carious enamel region of a tooth using focused ion beam-scanning electron microscopy and transferred to two synchrotron beamlines to perform hard X-ray nano-fluorescence spectroscopy simultaneously with differential phase contrast mapping at a beam size of 55 × 45 nm. Soft X-ray ptychography data was then reconstructed with a pixel size of 8 nm. The two dimensional variation in chemistry and structure of carious enamel was revealed at the nanoscale, namely, the organisation of hydroxyapatite nano-crystals within enamel rods was imaged together with the inter-rod region. Correlative use of electron and X-ray scanning microscopies for the same sample allowed visualisation of the connection between structure and composition as presented in a compound image where colour indicates the relative calcium concentration in the sample, as indicated by the calcium Kα fluorescence intensity and grey scale shows the nanostructure. This highlights the importance of advanced correlative imaging to investigate the complex structure-composition relationships in nanomaterials of natural or artificial origin.

Published

2022

10. Carboxyl-richness controls organic carbon preservation during coprecipitation with iron (oxyhydr)oxides in the natural environment

Author

Lisa Curti, Oliver W. Moore, Peyman Babakhani, Ke-Qing Xiao, Clare Woulds, Andrew W. Bray, Ben J. Fisher, Majid Kazemian, Burkhard Kaulich, and Caroline L. Peacock

Subjects

Geology, QE1-996.5, Environmental sciences, GE1-350

Abstract

Organic carbon sequestration, stabilisation and burial through its interaction with iron is enhanced by carboxyl-richness of the organic moiety, according to elemental and microstructure analysis of experimentally produced co-precipitates.

Published

2021

11. X-ray absorption spectromicroscopy gives access to Li1+xAlxGe2−x(PO4)3 (LAGP) local degradation at the anode-electrolyte interface

Author

Majid Kazemian, Maya Kiskinova, and Benedetto Bozzini

Subjects

LAGP, NASICON, All solid-state rechargeable batteries, STXM, Industrial electrochemistry, TP250-261, Electric apparatus and materials. Electric circuits. Electric networks, TK452-454.4

Abstract

Batteries with inorganic solid-state electrolytes (ISSE) are attracting notable interest for next-generation systems implementing Lithium (Li) metal anodes, in view of achieving higher energy densities combined with superior safety. Notwithstanding extensive research and development work, this technology is not yet ready for industrial implementation, one of the key challenges being the stability of ISSEs, chiefly at the anodic interface. This work attacks this issue for the specific case of the LAGP/Li (Lithium Aluminium Germanium Phosphate/Lithium) interface with a micro-spectroscopic approach centred on post mortem Scanning Transmission X-ray Microscopy (STXM) of intact LMO/LAGP/Li thin-film batteries, microfabricated in discharged state. Pristine and cycled cells were mapped to pinpoint morphochemical changes, induced by electrochemical ageing. The evidenced shape changes, corresponding to mechanical damaging of the solid/solid electrodic interfaces correlate with LAGP decomposition at the anode, leading to reduction of Ge, whereas the chemical state at the cathodic interface is preserved. Thanks to its submicron spacial resolution, the STXM at the Ge L-edge and O K-edge spectra allowed to assess the highly localized nature of the chemical transformation of LAGP and its correlation with the formation of Li outgrowth features.

Published

2022

12. IL-1β promotes IL-9-producing Th cell differentiation in IL-2-limiting conditions through the inhibition of BCL6

Author

D. Alejandro Canaria, Maia G. Clare, Bingyu Yan, Charlotte B. Campbell, Zachariah A. Ismaio, Nicole L. Anderson, Sungtae Park, Alexander L. Dent, Majid Kazemian, and Matthew R. Olson

Subjects

Th cell differentiation, IL-9 cytokine, IL-2 signaling, nuclear factor-kB, Th9 cells, Immunologic diseases. Allergy, RC581-607

Abstract

IL-9-producing CD4+ T helper cells, termed Th9 cells, differentiate from naïve precursor cells in response to a combination of cytokine and cell surface receptor signals that are elevated in inflamed tissues. After differentiation, Th9 cells accumulate in these tissues where they exacerbate allergic and intestinal disease or enhance anti-parasite and anti-tumor immunity. Previous work indicates that the differentiation of Th9 cells requires the inflammatory cytokines IL-4 and TGF-β and is also dependent of the T cell growth factor IL-2. While the roles of IL-4 and TGF-β-mediated signaling are relatively well understood, how IL-2 signaling contributes to Th9 cell differentiation outside of directly inducing the Il9 locus remains less clear. We show here that murine Th9 cells that differentiate in IL-2-limiting conditions exhibit reduced IL-9 production, diminished NF-kB activation and a reduced NF-kB-associated transcriptional signature, suggesting that IL-2 signaling is required for optimal NF-kB activation in Th9 cells. Interestingly, both IL-9 production and the NF-kB transcriptional signature could be rescued by addition of the NF-kB-activating cytokine IL-1β to IL-2-limiting cultures. IL-1β was unique among NF-kB-activating factors in its ability to rescue Th9 differentiation as IL-2 deprived Th9 cells selectively induced IL-1R expression and IL-1β/IL-1R1 signaling enhanced the sensitivity of Th9 cells to limiting amounts of IL-2 by suppressing expression of the Th9 inhibitory factor BCL6. These data shed new light on the intertwined nature of IL-2 and NF-kB signaling pathways in differentiating Th cells and elucidate the potential mechanisms that promote Th9 inflammatory function in IL-2-limiting conditions.

Published

2022

13. EBV-associated diseases: Current therapeutics and emerging technologies

Author

Srishti Chakravorty, Behdad Afzali, and Majid Kazemian

Subjects

high-throughput sequencing technologies, EBV therapeutics, EBV animal models, molecular mechanisms of EBV-host interactions, EBV-associated diseases and cancers, EBV vaccines, Immunologic diseases. Allergy, RC581-607

Abstract

EBV is a prevalent virus, infecting >90% of the world’s population. This is an oncogenic virus that causes ~200,000 cancer-related deaths annually. It is, in addition, a significant contributor to the burden of autoimmune diseases. Thus, EBV represents a significant public health burden. Upon infection, EBV remains dormant in host cells for long periods of time. However, the presence or episodic reactivation of the virus increases the risk of transforming healthy cells to malignant cells that routinely escape host immune surveillance or of producing pathogenic autoantibodies. Cancers caused by EBV display distinct molecular behaviors compared to those of the same tissue type that are not caused by EBV, presenting opportunities for targeted treatments. Despite some encouraging results from exploration of vaccines, antiviral agents and immune- and cell-based treatments, the efficacy and safety of most therapeutics remain unclear. Here, we provide an up-to-date review focusing on underlying immune and environmental mechanisms, current therapeutics and vaccines, animal models and emerging technologies to study EBV-associated diseases that may help provide insights for the development of novel effective treatments.

Published

2022

14. The cytoplasmic LSm1-7 and nuclear LSm2-8 complexes exert opposite effects on Hepatitis B virus biosynthesis and interferon responses

Author

Naimur Rahman, Jiazeng Sun, Zhili Li, Aryamav Pattnaik, Rodrigo Mohallem, Mengbo Wang, Majid Kazemian, Uma K. Aryal, and Ourania Andrisani

Subjects

Hepatitis B Virus (HBV), LSm1-7 and LSm2-8 complexes, N6-adenosine methylation (m6A), Cp028, Methylated RNA immunoprecipitation (MeRIP), Immunologic diseases. Allergy, RC581-607

Abstract

Despite many studies on host or viral gene expression, how the cellular proteome responds to internal or external cues during the infection process remains unclear. In this study, we used a Hepatitis B Virus (HBV) replication model and performed proteomic analyses to understand how HBV evades innate immunity as a function of cell cycle progression. Specifically, we performed proteomic analyses of HBV-replicating cells in G1/S and G2/M phases, as a function of IFN-α treatment. We identified that the conserved LSm (Like-Sm1-8) proteins were differentially regulated in HBV replicating cells treated with IFN-α. Specifically, in G2/M phase, IFN-α increased protein level of LSm1, the unique subunit of cytoplasmic LSm1-7 complex involved in mRNA decay. By contrast, IFN-α decreased LSm8, the unique subunit of nuclear LSm2-8 complex, a chaperone of U6 spliceosomal RNA, suggesting the cytoplasmic LSm1-7 complex is antiviral, whereas the nuclear LSm2-8 complex is pro-viral. In HBV replication and infection models, siRNA-mediated knockdown of LSm1 increased all viral RNAs. Conversely, LSm8 knockdown reduced viral RNA levels, dependent on N6-adenosine methylation (m6A) of the epsilon stem-loop at the 5′ end of pre-Core/pregenomic (preC/pg) RNA. Methylated RNA immunoprecipitation (MeRIP) assays demonstrated reduced viral RNA methylation by LSm8 knockdown, dependent on the 5’ m6A modification, suggesting the LSm2-8 complex has a role in mediating this modification. Interestingly, splicing inhibitor Cp028 acting upstream of the LSm2-8 complex suppressed viral RNA levels without reducing the 5’ m6A modification. This observation suggests Cp028 has novel antiviral effects, likely potentiating IFN-α-mediated suppression of HBV biosynthesis.

Published

2022

15. Investigation of the causal etiology in a patient with T-B+NK+ immunodeficiency

Author

Robert Sertori, Jian-Xin Lin, Esteban Martinez, Sadhna Rana, Andrew Sharo, Majid Kazemian, Uma Sunderam, Mark Andrake, Susan Shinton, Billy Truong, Roland M. Dunbrack, Chengyu Liu, Rajgopol Srinivasan, Steven E. Brenner, Christine M. Seroogy, Jennifer M. Puck, Warren J. Leonard, and David L. Wiest

Subjects

immunodeficiency, newborn screening, zebrafish, thymus, MED14, T cell lymphopenia, Immunologic diseases. Allergy, RC581-607

Abstract

Newborn screening for severe combined immunodeficiency (SCID) has not only accelerated diagnosis and improved treatment for affected infants, but also led to identification of novel genes required for human T cell development. A male proband had SCID newborn screening showing very low T cell receptor excision circles (TRECs), a biomarker for thymic output of nascent T cells. He had persistent profound T lymphopenia, but normal numbers of B and natural killer (NK) cells. Despite an allogeneic hematopoietic stem cell transplant from his brother, he failed to develop normal T cells. Targeted resequencing excluded known SCID genes; however, whole exome sequencing (WES) of the proband and parents revealed a maternally inherited X-linked missense mutation in MED14 (MED14V763A), a component of the mediator complex. Morpholino (MO)-mediated loss of MED14 function attenuated T cell development in zebrafish. Moreover, this arrest was rescued by ectopic expression of cDNA encoding the wild type human MED14 ortholog, but not by MED14V763A, suggesting that the variant impaired MED14 function. Modeling of the equivalent mutation in mouse (Med14V769A) did not disrupt T cell development at baseline. However, repopulation of peripheral T cells upon competitive bone marrow transplantation was compromised, consistent with the incomplete T cell reconstitution experienced by the proband upon transplantation with bone marrow from his healthy male sibling, who was found to have the same MED14V763A variant. Suspecting that the variable phenotypic expression between the siblings was influenced by further mutation(s), we sought to identify genetic variants present only in the affected proband. Indeed, WES revealed a mutation in the L1 cell adhesion molecule (L1CAMQ498H); however, introducing that mutation in vivo in mice did not disrupt T cell development. Consequently, immunodeficiency in the proband may depend upon additional, unidentified gene variants.

Published

2022

16. Investigating Nanoscale Electron Transfer Processes at the Cell-Mineral Interface in Cobalt-Doped Ferrihydrite Using Geobacter sulfurreducens: A Multi-Technique Approach

Author

Dawn M. Buchanan, Laura Newsome, Jonathan R. Lloyd, Majid Kazemian, Burkhard Kaulich, Tohru Araki, Heath Bagshaw, John Waters, Gerrit van der Laan, Alpha N’Diaye, and Victoria S. Coker

Subjects

cobalt, ferrihydrite, polymetallic nodules, magnetite, scanning transmission X-ray microscopy, Science

Abstract

Cobalt is an essential element for life and plays a crucial role in supporting the drive to clean energy, due to its importance in rechargeable batteries. Co is often associated with Fe in the environment, but the fate of Co in Fe-rich biogeochemically-active environments is poorly understood. To address this, synchrotron-based scanning X-ray microscopy (SXM) was used investigate the behaviour of cobalt at the nanoscale in Co-Fe(III)-oxyhydroxides undergoing microbial reduction. SXM can assess spatial changes in metal speciation and organic compounds helping to elucidate the electron transfer processes occurring at the cell-mineral interface and inform on the fate of cobalt in redox horizons. G. sulfurreducens was used to reduce synthetic Co-ferrihydrite as an analogue of natural cobalt-iron-oxides. Magnetite [Fe(II)/Fe(III)3O4] production was confirmed by powder X-ray diffraction (XRD), SXM and X-ray magnetic circular dichroism (XMCD) data, where best fits of the latter suggested Co-bearing magnetite. Macro-scale XAS techniques suggested Co(III) reduction occurred and complementary SXM at the nanoscale, coupled with imaging, found localised biogenic Co(III) reduction at the cell-mineral interface via direct contact with outer membrane cytochromes. No discernible localised changes in Fe speciation were detected in the reordered cobalt-iron-oxides that were formed and at the end point of the experiment only 11% Co and 1.5% Fe had been solubilised. The solid phase retention, alongside the highly localised and preferential cobalt bioreduction observed at the nanoscale is consistent with retention of Co in redox zones. This work improves our fundamental molecular-scale understanding of the fate of Co in complex environmental systems and supports the development of biogenic Co-doped magnetite for industrial applications from drug delivery systems to magnetic recording media.

Published

2022

17. Transcription factor p73 regulates Th1 differentiation

Author

Min Ren, Majid Kazemian, Ming Zheng, JianPing He, Peng Li, Jangsuk Oh, Wei Liao, Jessica Li, Jonathan Rajaseelan, Brian L. Kelsall, Gary Peltz, and Warren J. Leonard

Subjects

Science

Abstract

Heterogeneous helper T (Th) cell responses contribute to differential susceptibility to immunological disorders. Here the authors perform haplotype-based computational screens of 16 inbred mouse strains to identify a transcription factor, p73, as an important negative regulator of Th1 differentiation, with p73 deficient mice manifesting alterations in two inflammatory disease models.

Published

2020

18. Evolution of the Piauí Laterite, Brazil: Mineralogical, Geochemical and Geomicrobiological Mechanisms for Cobalt and Nickel Enrichment

Author

Agnieszka Dybowska, Paul F. Schofield, Laura Newsome, Richard J. Herrington, Julian F. W. Mosselmans, Burkhard Kaulich, Majid Kazemian, Tohru Araki, Thomas J. Skiggs, Jens Kruger, Anne Oxley, Rachel L. Norman, and Jonathan R. Lloyd

Subjects

Ni-Co laterite, critical metals, Piauí, metal cycling, cobalt speciation, biogeochemistry, Mineralogy, QE351-399.2

Abstract

The Piauí laterite (NE Brazil) was initially evaluated for Ni but also contains economic concentrations of Co. Our investigations aimed to characterise the Co enrichment within the deposit; by understanding the mineralogy we can better design mineral processing to target Co recovery. The laterite is heterogeneous on the mineralogical and lithological scale differing from the classic schematic profiles of nickel laterites, and while there is a clear transition from saprolite to more ferruginous units, the deposit also contains lateral and vertical variations that are associated with both the original intrusive complex and also the nature of fluid flow, redox cycling and fluctuating groundwater tables. The deposit is well described by the following six mineralogical and geochemical units: SAPFE, a clay bearing ferruginous saprolite; SAPSILFE, a silica dominated ferruginous saprolite; SAPMG, a green magnesium rich chlorite dominated saprolite; SAPAL, a white-green high aluminium, low magnesium saprolite; saprock, a serpentine and chlorite dominated saprolite and the serpentinite protolith. Not all of these units are ‘ore bearing’. Ni is concentrated in a range of nickeliferous phyllosilicates (0.1–25 wt%) including serpentines, talc and pimelite, goethite (up to 9 wt%), magnetite (2.8–14 wt%) and Mn oxy-hydroxides (0.35–19 wt%). Lower levels of Ni are present in ilmenites, chromites, chlorite and distinct small horizons of nickeliferous silica (up to 3 wt% Ni). With respect to Co, the only significant chemical correlation is with Mn, and Mn oxy-hydroxides contain up to 14 wt% Co. Cobalt is only present in goethite when Mn is also present, and these goethite grains contain an average of 0.19 wt% Co (up to a maximum of 0.65 wt%). The other main Co bearing minerals are magnetite (0.41–1.89 wt%), chlorite (up to 0.45 wt%) and ilmenite (up to 0.35 wt%). Chemically there are three types of Mn oxy-hydroxide, asbolane, asbolane-lithiophorite intermediates and romanechite. Spatially resolved X-ray absorption spectroscopy analysis suggests that the Co is present primarily as octahedrally bound Co3+ substituted directly into the MnO6 layers of the asbolane-lithiophorite intermediates. However significant levels of Co2+ are evident within the asbolane-lithiophorite intermediates, structurally bound along with Ni in the interlayer between successive MnO6 layers. The laterite microbial community contains prokaryotes and few fungi, with the highest abundance and diversity closest to ground level. Microorganisms capable of metal redox cycling were identified to be present, but microcosm experiments of different horizons within the deposit demonstrated that stimulated biogeochemical cycling did not contribute to Co mobilisation. Correlations between Co and Mn are likely to be a relic of parent rock weathering rather than due to biogeochemical processes; a conclusion that agrees well with the mineralogical associations.

Published

2022

19. PBRM1 Regulates Stress Response in Epithelial Cells

Author

Elizabeth G. Porter, Alisha Dhiman, Basudev Chowdhury, Benjamin C. Carter, Hang Lin, Jane C. Stewart, Majid Kazemian, Michael K. Wendt, and Emily C. Dykhuizen

Subjects

Science

Abstract

Summary: Polybromo1 (PBRM1) is a chromatin remodeler subunit highly mutated in cancer, particularly clear cell renal carcinoma. PBRM1 is a member of the SWI/SNF subcomplex, PBAF (PBRM1-Brg1/Brm-associated factors), and is characterized by six tandem bromodomains. Here we establish a role for PBRM1 in epithelial cell maintenance through the expression of genes involved in cell adhesion, metabolism, stress response, and apoptosis. In support of a general role for PBRM1 in stress response and apoptosis, we observe that loss of PBRM1 results in an increase in reactive oxygen species generation and a decrease in cellular viability under stress conditions. We find that loss of PBRM1 promotes cell growth under favorable conditions but is required for cell survival under conditions of cellular stress. : Molecular Mechanism of Gene Regulation; Molecular Mechanism of Behavior; Cancer Subject Areas: Molecular Mechanism of Gene Regulation, Molecular Mechanism of Behavior, Cancer

Published

2019

20. Thymic stromal lymphopoietin limits primary and recall CD8+ T-cell anti-viral responses

Author

Risa Ebina-Shibuya, Erin E West, Rosanne Spolski, Peng Li, Jangsuk Oh, Majid Kazemian, Daniel Gromer, Phillip Swanson, Ning Du, Dorian B McGavern, and Warren J Leonard

Subjects

TSLP, CD8, memory, T cell, viral infection, Medicine, Science, Biology (General), QH301-705.5

Abstract

Thymic stromal lymphopoietin (TSLP) is a cytokine that acts directly on CD4+ T cells and dendritic cells to promote progression of asthma, atopic dermatitis, and allergic inflammation. However, a direct role for TSLP in CD8+ T-cell primary responses remains controversial and its role in memory CD8+ T cell responses to secondary viral infection is unknown. Here, we investigate the role of TSLP in both primary and recall responses in mice using two different viral systems. Interestingly, TSLP limited the primary CD8+ T-cell response to influenza but did not affect T cell function nor significantly alter the number of memory CD8+ T cells generated after influenza infection. However, TSLP inhibited memory CD8+ T-cell responses to secondary viral infection with influenza or acute systemic LCMV infection. These data reveal a previously unappreciated role for TSLP on recall CD8+ T-cell responses in response to viral infection, findings with potential translational implications.

Published

2021

21. Granzyme A–producing T helper cells are critical for acute graft-versus-host disease

Author

Sungtae Park, Brad Griesenauer, Hua Jiang, Djamilatou Adom, Pegah Mehrpouya-Bahrami, Srishti Chakravorty, Majid Kazemian, Tanbeena Imam, Rajneesh Srivastava, Tristan A. Hayes, Julian Pardo, Sarath Chandra Janga, Sophie Paczesny, Mark H. Kaplan, and Matthew R. Olson

Subjects

Immunology, Inflammation, Medicine

Abstract

Acute graft-versus-host disease (aGVHD) can occur after hematopoietic cell transplant in patients undergoing treatment for hematological malignancies or inborn errors. Although CD4+ T helper (Th) cells play a major role in aGVHD, the mechanisms by which they contribute, particularly within the intestines, have remained elusive. We have identified a potentially novel subset of Th cells that accumulated in the intestines and produced the serine protease granzyme A (GrA). GrA+ Th cells were distinct from other Th lineages and exhibited a noncytolytic phenotype. In vitro, GrA+ Th cells differentiated in the presence of IL-4, IL-6, and IL-21 and were transcriptionally unique from cells cultured with either IL-4 or the IL-6/IL-21 combination alone. In vivo, both STAT3 and STAT6 were required for GrA+ Th cell differentiation and played roles in maintenance of the lineage identity. Importantly, GrA+ Th cells promoted aGVHD-associated morbidity and mortality and contributed to crypt destruction within intestines but were not required for the beneficial graft-versus-leukemia effect. Our data indicate that GrA+ Th cells represent a distinct Th subset and are critical mediators of aGVHD.

Published

2020

22. Critical functions for STAT5 tetramers in the maturation and survival of natural killer cells

Author

Jian-Xin Lin, Ning Du, Peng Li, Majid Kazemian, Tesfay Gebregiorgis, Rosanne Spolski, and Warren J. Leonard

Subjects

Science

Abstract

IL-15 signals through STAT5 to modulate natural killer (NK) cell maturation, function and homeostasis, but the specific contributions of STAT5 dimers and tetramers are still unclear. Here the authors show that, while STAT5 dimers are sufficient for NK development, STAT5 tetramers are essential for NK homoeostasis by modulating apoptosis.

Published

2017

23. Kinetics of cytokine receptor trafficking determine signaling and functional selectivity

Author

Jonathan Martinez-Fabregas, Stephan Wilmes, Luopin Wang, Maximillian Hafer, Elizabeth Pohler, Juliane Lokau, Christoph Garbers, Adeline Cozzani, Paul K Fyfe, Jacob Piehler, Majid Kazemian, Suman Mitra, and Ignacio Moraga

Subjects

cytokine signaling, cytokine engineering, bias signaling, endosomal traffic, functional pleiotropy, Medicine, Science, Biology (General), QH301-705.5

Abstract

Cytokines activate signaling via assembly of cell surface receptors, but it is unclear whether modulation of cytokine-receptor binding parameters can modify biological outcomes. We have engineered IL-6 variants with different affinities to gp130 to investigate how cytokine receptor binding dwell-times influence functional selectivity. Engineered IL-6 variants showed a range of signaling amplitudes and induced biased signaling, with changes in receptor binding dwell-times affecting more profoundly STAT1 than STAT3 phosphorylation. We show that this differential signaling arises from defective translocation of ligand-gp130 complexes to the endosomal compartment and competitive STAT1/STAT3 binding to phospho-tyrosines in gp130, and results in unique patterns of STAT3 binding to chromatin. This leads to a graded gene expression response and differences in ex vivo differentiation of Th17, Th1 and Treg cells. These results provide a molecular understanding of signaling biased by cytokine receptors, and demonstrate that manipulation of signaling thresholds is a useful strategy to decouple cytokine functional pleiotropy.

Published

2019

24. Diffuse Hydrothermal Venting: A Hidden Source of Iron to the Oceans

Author

Alastair J. M. Lough, Douglas P. Connelly, William B. Homoky, Jeffrey A. Hawkes, Valerie Chavagnac, Alain Castillo, Majid Kazemian, Ko-ichi Nakamura, Tohru Araki, Burkhard Kaulich, and Rachel A. Mills

Subjects

iron, colloid, nanoparticle, hydrothermal, Von Damm, GEOTRACES, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Iron (Fe) limits primary productivity and nitrogen fixation in large regions of the world’s oceans. Hydrothermal supply of Fe to the global deep ocean is extensive; however, most of the previous work has focused on examining high temperature, acidic, focused flow on ridge axes that create “black smoker” plumes. The contribution of other types of venting to the global ocean Fe cycle has received little attention. To thoroughly understand hydrothermal Fe sources to the ocean, different types of vent site must be compared. To examine the role of more diffuse, higher pH sources of venting, a hydrothermal plume above the Von Damm vent field (VDVF) was sampled for Total dissolvable Fe (unfiltered, TDFe), dissolved Fe (0.2 μm) concentrations up to 196 nmol kg–1 comparable to concentrations measured in black smoker plumes on the Mid-Atlantic Ridge. Colloidal Fe (cFe) and sFe increased as a fraction of TDFe with decreasing TDFe concentration. This increase in the percentage of sFe and cFe within the plume cannot be explained by settling of particulates or mixing with background seawater. The creation of new cFe and sFe within the plume from the breakdown of pFe is required to close the Fe budget. We suggest that the proportional increase in cFe and sFe reflects the entrainment, breakdown and recycling of Fe bearing organic particulates near the vents. Fe plume profiles from the VDVF differ significantly from previous studies of “black smoker” vents where formation of new pFe in the plume decreases the amount of cFe. Formation and removal of Fe-rich colloids and particles will control the amount and physico-chemical composition of dFe supplied to the deep ocean from hydrothermal systems. This study highlights the differences in the stabilization of hydrothermal Fe from an off-axis diffuse source compared to black smokers. Off-axis diffuse venting represent a potentially significant and previously overlooked Fe source to the ocean due to the difficulties in detecting and locating such sites.

Published

2019

25. IL-21/type I interferon interplay regulates neutrophil-dependent innate immune responses to Staphylococcus aureus

Author

Rosanne Spolski, Erin E West, Peng Li, Sharon Veenbergen, Sunny Yung, Majid Kazemian, Jangsuk Oh, Zu-Xi Yu, Alexandra F Freeman, Stephen M Holland, Philip M Murphy, and Warren J Leonard

Subjects

methicillin-resistant Staph aureus, IL-21, neutrophil, Medicine, Science, Biology (General), QH301-705.5

Abstract

Methicillin-resistant Staphylococcus aureus (MRSA) is a major hospital- and community-acquired pathogen, but the mechanisms underlying host-defense to MRSA remain poorly understood. Here, we investigated the role of IL-21 in this process. When administered intra-tracheally into wild-type mice, IL-21 induced granzymes and augmented clearance of pulmonary MRSA but not when neutrophils were depleted or a granzyme B inhibitor was added. Correspondingly, IL-21 induced MRSA killing by human peripheral blood neutrophils. Unexpectedly, however, basal MRSA clearance was also enhanced when IL-21 signaling was blocked, both in Il21r KO mice and in wild-type mice injected with IL-21R-Fc fusion-protein. This correlated with increased type I interferon and an IFN-related gene signature, and indeed anti-IFNAR1 treatment diminished MRSA clearance in these animals. Moreover, we found that IFNβ induced granzyme B and promoted MRSA clearance in a granzyme B-dependent fashion. These results reveal an interplay between IL-21 and type I IFN in the innate immune response to MRSA.

Published

2019

26. Comprehensive assembly of novel transcripts from unmapped human RNA‐Seq data and their association with cancer

Author

Majid Kazemian, Min Ren, Jian‐Xin Lin, Wei Liao, Rosanne Spolski, and Warren J Leonard

Subjects

cancer‐associated transcripts, long noncoding RNAs, unmapped sequencing reads, Biology (General), QH301-705.5, Medicine (General), R5-920

Abstract

Abstract Crucial parts of the genome including genes encoding microRNAs and noncoding RNAs went unnoticed for years, and even now, despite extensive annotation and assembly of the human genome, RNA‐sequencing continues to yield millions of unmappable and thus uncharacterized reads. Here, we examined > 300 billion reads from 536 normal donors and 1,873 patients encompassing 21 cancer types, identified ~300 million such uncharacterized reads, and using a distinctive approach de novo assembled 2,550 novel human transcripts, which mainly represent long noncoding RNAs. Of these, 230 exhibited relatively specific expression or non‐expression in certain cancer types, making them potential markers for those cancers, whereas 183 exhibited tissue specificity. Moreover, we used lentiviral‐mediated expression of three selected transcripts that had higher expression in normal than in cancer patients and found that each inhibited the growth of HepG2 cells. Our analysis provides a comprehensive and unbiased resource of unmapped human transcripts and reveals their associations with specific cancers, providing potentially important new genes for therapeutic targeting.

Published

2015

27. 2185 The effects of autoimmune inflammation on proliferation, differentiation, and androgen receptor signaling in adult prostate stem cells

Author

Paula Cooper, Hsing-Hui Wang, Meaghan Broman, Emery Goossens, Hristos Kaimakliotis, Scott Crist, Nadia Atallah, Majid Kazemian, Bennett Elzey, Liang Cheng, and Timothy L. Ratliff

Subjects

Medicine

Abstract

OBJECTIVES/SPECIFIC AIMS: The primary goal of this project is to verify findings from a murine prostatitis model in the human setting. METHODS/STUDY POPULATION: Methods include primary cell isolation and culture, FACS, adoptive transfer, 3D cell culture, histology, immunofluorescence, xenograft, and tissue recombination. The study population includes patients undergoing HoLEP or radical prostatectomy due to hyperplasia or adjacent bladder or prostate cancer. RESULTS/ANTICIPATED RESULTS: Having verified similar sensitivities to androgen receptor (AR) inhibitors between naive murine and human basal prostate stem cells, we anticipate that autoimmune inflammation in humans affects the response of basal prostate stem cells in a manner similar to the murine setting as well. This includes increased proliferation, increased differentiation, and decreased response to AR inhibitors. DISCUSSION/SIGNIFICANCE OF IMPACT: The identification of survival mechanisms used by basal prostate stem cells in an androgen deprived environment may give insight to the process by which prostate cancer becomes androgen independent. The effect of inflammation on proliferation, survival, and AR signaling in these cells may also provide information relevant to cancer initiation and progression.

Published

2018

28. A Sub-Microanalysis Approach in Chemical Characterisation of Gold Nanorods Formed by a Novel Polymer-Immobilised Gold Seeds Base

Author

Majid Kazemian Abyaneh, Tohru Araki, and Burkhard Kaulich

Subjects

gold nanorods, PMMA, nanocomposites, SXM, NEXAFS, XRF, Chemistry, QD1-999

Abstract

Gold nanorods (GNRs) have been fabricated by a novel polymer-immobilised seed mediated method using ultraviolet (UV) photoreduced gold-polymethylmethacrylate (Au–PMMA) nanocomposites as a seed platform and characterised at sub-micron scale regime with synchrotron-based techniques; near-edge X-ray absorption fine structure (NEXAFS) spectroscopy and X-ray fluorescence (XRF) mapping. In this report, it is shown that investigating polymer nanocomposites using combination of XRF mapping and NEXAFS spectromicroscopy can help to see the growth phenomenon from different perspective than conventional characterisation techniques. XRF maps are used to explore distribution of the constituent elements and showing how polymer matrix making stripe patterns along with regions where GNRs are formed. NEXAFS carbon (C) K-edge spectra have been taken at three different stages of synthesis: (1) on Au–PMMA nanocomposites before UV irradiation, (2) after gold nanoparticles formation, and (3) after GNRs formation. It reveals how polymer matrix has been degraded during GNRs formation and avoiding chemically or physically damage to polymer matrix is crucial to control the formation of GNRs.

Published

2017

29. Correction: Quantitative Analysis of the Segmentation Regulatory Network Using Pattern Generating Potentials.

Author

Majid Kazemian, Charles Blatti, Adam Richards, Michael McCutchan, Noriko Wakabayashi-Ito, Ann S. Hammonds, Susan E. Celniker, Sudhir Kumar, Scot A. Wolfe, Michael H. Brodsky, and Saurabh Sinha

Subjects

Biology (General), QH301-705.5

Published

2013

30. Computational identification of diverse mechanisms underlying transcription factor-DNA occupancy.

Author

Qiong Cheng, Majid Kazemian, Hannah Pham, Charles Blatti, Susan E Celniker, Scot A Wolfe, Michael H Brodsky, and Saurabh Sinha

Subjects

Genetics, QH426-470

Abstract

ChIP-based genome-wide assays of transcription factor (TF) occupancy have emerged as a powerful, high-throughput method to understand transcriptional regulation, especially on a global scale. This has led to great interest in the underlying biochemical mechanisms that direct TF-DNA binding, with the ultimate goal of computationally predicting a TF's occupancy profile in any cellular condition. In this study, we examined the influence of various potential determinants of TF-DNA binding on a much larger scale than previously undertaken. We used a thermodynamics-based model of TF-DNA binding, called "STAP," to analyze 45 TF-ChIP data sets from Drosophila embryonic development. We built a cross-validation framework that compares a baseline model, based on the ChIP'ed ("primary") TF's motif, to more complex models where binding by secondary TFs is hypothesized to influence the primary TF's occupancy. Candidates interacting TFs were chosen based on RNA-SEQ expression data from the time point of the ChIP experiment. We found widespread evidence of both cooperative and antagonistic effects by secondary TFs, and explicitly quantified these effects. We were able to identify multiple classes of interactions, including (1) long-range interactions between primary and secondary motifs (separated by ≤150 bp), suggestive of indirect effects such as chromatin remodeling, (2) short-range interactions with specific inter-site spacing biases, suggestive of direct physical interactions, and (3) overlapping binding sites suggesting competitive binding. Furthermore, by factoring out the previously reported strong correlation between TF occupancy and DNA accessibility, we were able to categorize the effects into those that are likely to be mediated by the secondary TF's effect on local accessibility and those that utilize accessibility-independent mechanisms. Finally, we conducted in vitro pull-down assays to test model-based predictions of short-range cooperative interactions, and found that seven of the eight TF pairs tested physically interact and that some of these interactions mediate cooperative binding to DNA.

Published

2013

31. Quantitative analysis of the Drosophila segmentation regulatory network using pattern generating potentials.

Author

Majid Kazemian, Charles Blatti, Adam Richards, Michael McCutchan, Noriko Wakabayashi-Ito, Ann S Hammonds, Susan E Celniker, Sudhir Kumar, Scot A Wolfe, Michael H Brodsky, and Saurabh Sinha

Subjects

Biology (General), QH301-705.5

Abstract

Cis-regulatory modules that drive precise spatial-temporal patterns of gene expression are central to the process of metazoan development. We describe a new computational strategy to annotate genomic sequences based on their "pattern generating potential" and to produce quantitative descriptions of transcriptional regulatory networks at the level of individual protein-module interactions. We use this approach to convert the qualitative understanding of interactions that regulate Drosophila segmentation into a network model in which a confidence value is associated with each transcription factor-module interaction. Sequence information from multiple Drosophila species is integrated with transcription factor binding specificities to determine conserved binding site frequencies across the genome. These binding site profiles are combined with transcription factor expression information to create a model to predict module activity patterns. This model is used to scan genomic sequences for the potential to generate all or part of the expression pattern of a nearby gene, obtained from available gene expression databases. Interactions between individual transcription factors and modules are inferred by a statistical method to quantify a factor's contribution to the module's pattern generating potential. We use these pattern generating potentials to systematically describe the location and function of known and novel cis-regulatory modules in the segmentation network, identifying many examples of modules predicted to have overlapping expression activities. Surprisingly, conserved transcription factor binding site frequencies were as effective as experimental measurements of occupancy in predicting module expression patterns or factor-module interactions. Thus, unlike previous module prediction methods, this method predicts not only the location of modules but also their spatial activity pattern and the factors that directly determine this pattern. As databases of transcription factor specificities and in vivo gene expression patterns grow, analysis of pattern generating potentials provides a general method to decode transcriptional regulatory sequences and networks.

Published

2010

32. Scanning photoelectron microscopy discloses the role of Cr and Mo in the selective corrosion of hardmetal grades with Co-Ni binders

Author

Bozzini, Benedetto, primary, Amati, Matteo, additional, Gregoratti, Luca, additional, Abyaneh, Majid Kazemian, additional, Tavola, Francesco, additional, Tedeschi, Sandra, additional, and De Gaudenzi, Gian Pietro, additional

Published

2023

33. Novel insight into bronze disease gained by synchrotron-based photoelectron spectro-microscopy, in support of electrochemical treatment strategies

Author

Bozzini, Benedetto, Alemán, Belén, Amati, Matteo, Boniardi, Marco, Caramia, Vincenzo, Giovannelli, Giuseppe, Gregoratti, Luca, and Abyaneh, Majid Kazemian

Published

2017

34. GSTM2 is a key molecular determinant of resistance to SG-ARIs

Author

Chaohao Li, Jinpeng Liu, Daheng He, Fengyi Mao, Xiongjian Rao, Yue Zhao, Nadia A. Lanman, Majid Kazemian, Elia Farah, Jinghui Liu, Chrispus M. Ngule, Zhuangzhuang Zhang, Yanquan Zhang, Yifan Kong, Lang Li, Chi Wang, and Xiaoqi Liu

Subjects

Male, Cancer Research, p38 Mitogen-Activated Protein Kinases, Article, Prostatic Neoplasms, Castration-Resistant, Receptors, Aryl Hydrocarbon, Drug Resistance, Neoplasm, Receptors, Androgen, Cell Line, Tumor, Benzamides, Nitriles, Phenylthiohydantoin, Androgen Receptor Antagonists, Genetics, Humans, Molecular Biology, Glutathione Transferase

Abstract

Prostate cancer (PCa) continues to threaten men's health, and treatment targeting the androgen receptor (AR) pathway is the major therapy for PCa patients. Several second-generation androgen receptor inhibitors (SG-ARIs), including enzalutamide (ENZ), apalutamide (APA) and darolutamide (DARO), have been developed to better block the activity of AR. Unavoidably, emergence of resistance to these novel drugs still persists. Herein, we identified glutathione S-transferase Mu 2 (GSTM2) as an important determinant in the acquisition of resistance to SG-ARIs. Elevated GSTM2 was detected in enzalutamide-resistant (ENZ-R) PCa, and overexpression of GSTM2 in naïve enzalutamide-sensitive (ENZ-S) cells effectively transformed them to ENZ-R PCa. Aryl hydrocarbon receptor (AhR), the upstream transcription factor, was implicated in the overexpression of GSTM2 in ENZ-R cells. Mechanistically, GSTM2 antagonized the effect of ENZ by rescuing cells from oxidative stress-associated damage and activation of p38 MAPK pathway. Surprisingly, high GSTM2 levels also associated with cross-resistance to APA and DARO. Taking together, these results provide new insight to ameliorate resistance to SG-ARIs and improve treatment outcome.

Published

2022

35. Folic acid-mediated fibrosis is driven by C5a receptor 1-mediated activation of kidney myeloid cells

Author

Ranjit K. Sahu, Sandhya Xavier, Daniel Chauss, Luopin Wang, Claude Chew, Ronald Taylor, William B. Stallcup, Jennie Z. Ma, Majid Kazemian, Behdad Afzali, Jörg Köhl, and Didier Portilla

Subjects

Mice, Knockout, Cicatrix, Mice, Folic Acid, Physiology, Green Fluorescent Proteins, Animals, Myeloid Cells, Receptors, Platelet-Derived Growth Factor, Kidney, Fibrosis, Receptor, Anaphylatoxin C5a, Research Article

Abstract

We have previously reported that increased expression and activation of kidney cell complement components play an important role in the pathogenesis of renal scarring. Here, we used floxed green fluorescent protein (GFP)-C5a receptor 1 (C5aR1) knockin mice (GFP-C5ar1(fl/fl)) and the model of folic acid (FA)-induced kidney injury to define the cell types and potential mechanisms by which increased C5aR1 activation leads to fibrosis. Using flow cytometry and confocal microscopy, we identified macrophages as the major interstitial cell type showing increased expression of C5aR1 in FA-treated mice. C5ar1(fl/fl).Lyz2Cre(+/−) mice, in which C5aR1 has been specifically deleted in lysozyme M-expressing myeloid cells, experienced reduced fibrosis compared with control C5ar1(fl/fl) mice. Examination of C5aR1-expressing macrophage transcriptomes by gene set enrichment analysis demonstrated that these cells were enriched in pathways corresponding to the complement cascade, collagen formation, and the NABA matrisome, strongly pointing to their critical roles in tissue repair/scarring. Since C5aR1 was also detected in a small population of platelet-derived growth factor receptor-β(+) GFP(+) cells, we developed C5ar1(fl/fl).Foxd1Cre(+/−) mice, in which C5aR1 is deleted specifically in pericytes, and found reduced FA-induced fibrosis. Primary cell cultures of platelet-derived growth factor receptor-β(+) pericytes isolated from FA-treated C5ar1(fl/fl).Foxd1Cre(+/−) mice showed reduced secretion of several cytokines, including IL-6 and macrophage inflammatory protein-2, compared with pericytes isolated from FA-treated control GFP-C5ar1(fl/fl) mice. Collectively, these data imply that C5a/C5aR1 axis activation primarily in interstitial cells contributes to the development of renal fibrosis. NEW & NOTEWORTHY This study used novel green fluorescent protein C5a receptor 1 floxed mice and the model of folic acid-mediated kidney fibrosis to demonstrate the pathogenic role of increased expression of this complement receptor on macrophages.

Published

2022

36. C5a-licensed phagocytes drive sterilizing immunity during systemic fungal infection

Author

Jigar V. Desai, Dhaneshwar Kumar, Tilo Freiwald, Daniel Chauss, Melissa D. Johnson, Michael S. Abers, Julie M. Steinbrink, John R. Perfect, Barbara Alexander, Vasiliki Matzaraki, Brendan D. Snarr, Marissa A. Zarakas, Vasileios Oikonomou, Lakmali M. Silva, Raju Shivarathri, Emily Beltran, Luciana Negro Demontel, Luopin Wang, Jean K. Lim, Dylan Launder, Heather R. Conti, Muthulekha Swamydas, Micah T. McClain, Niki M. Moutsopoulos, Majid Kazemian, Mihai G. Netea, Vinod Kumar, Jörg Köhl, Claudia Kemper, Behdad Afzali, and Michail S. Lionakis

Subjects

General Biochemistry, Genetics and Molecular Biology

Published

2023

37. Table S5 from Integrated Pan-Cancer Map of EBV-Associated Neoplasms Reveals Functional Host–Virus Interactions

Author

Majid Kazemian, Behdad Afzali, Bo Zhao, Matthew R. Olson, Gaurav Chopra, Daniel Chauss, D. Alejandro Canaria, Joydeb Majumder, Scott D. Briggs, Chin Fang Lin, Joseph Taylor Quaid, Luopin Wang, Chong Wang, Bingyu Yan, and Srishti Chakravorty

Abstract

list of DEGs (fold change >1.5, FDR

Published

2023

38. Table S5J-part3 from Integrated Pan-Cancer Map of EBV-Associated Neoplasms Reveals Functional Host–Virus Interactions

Author

Majid Kazemian, Behdad Afzali, Bo Zhao, Matthew R. Olson, Gaurav Chopra, Daniel Chauss, D. Alejandro Canaria, Joydeb Majumder, Scott D. Briggs, Chin Fang Lin, Joseph Taylor Quaid, Luopin Wang, Chong Wang, Bingyu Yan, and Srishti Chakravorty

Abstract

Table S5J-part3, expression values (transcripts per million; T.P.M.) of all genes (rows) in each sample (columns).

Published

2023

39. Table S3-4 from Integrated Pan-Cancer Map of EBV-Associated Neoplasms Reveals Functional Host–Virus Interactions

Author

Majid Kazemian, Behdad Afzali, Bo Zhao, Matthew R. Olson, Gaurav Chopra, Daniel Chauss, D. Alejandro Canaria, Joydeb Majumder, Scott D. Briggs, Chin Fang Lin, Joseph Taylor Quaid, Luopin Wang, Chong Wang, Bingyu Yan, and Srishti Chakravorty

Abstract

Mutational detail in EBV (S3) and host samples(S4). Full legend is provided in Supplementary methods.

Published

2023

40. Supplementary methods from Integrated Pan-Cancer Map of EBV-Associated Neoplasms Reveals Functional Host–Virus Interactions

Author

Majid Kazemian, Behdad Afzali, Bo Zhao, Matthew R. Olson, Gaurav Chopra, Daniel Chauss, D. Alejandro Canaria, Joydeb Majumder, Scott D. Briggs, Chin Fang Lin, Joseph Taylor Quaid, Luopin Wang, Chong Wang, Bingyu Yan, and Srishti Chakravorty

Abstract

Detailed information on different computational analysis performed in this study. This file additionally includes supplementary table legends and Table S2.

Published

2023

41. Figure S1-4 from Integrated Pan-Cancer Map of EBV-Associated Neoplasms Reveals Functional Host–Virus Interactions

Author

Majid Kazemian, Behdad Afzali, Bo Zhao, Matthew R. Olson, Gaurav Chopra, Daniel Chauss, D. Alejandro Canaria, Joydeb Majumder, Scott D. Briggs, Chin Fang Lin, Joseph Taylor Quaid, Luopin Wang, Chong Wang, Bingyu Yan, and Srishti Chakravorty

Abstract

Shown are information related to EBV integration, EBV gene manipulation, and EBV mutational patterns. These are additional supporting information for Figure 1-4.

Published

2023

42. Figure S5-6 from Integrated Pan-Cancer Map of EBV-Associated Neoplasms Reveals Functional Host–Virus Interactions

Author

Majid Kazemian, Behdad Afzali, Bo Zhao, Matthew R. Olson, Gaurav Chopra, Daniel Chauss, D. Alejandro Canaria, Joydeb Majumder, Scott D. Briggs, Chin Fang Lin, Joseph Taylor Quaid, Luopin Wang, Chong Wang, Bingyu Yan, and Srishti Chakravorty

Abstract

Shown are information on host mutational pattern and host response networks to EBV infection. These are additional supporting information for Figure 5-6.

Published

2023

43. Nanoscale correlative X-ray spectroscopy and ptychography of carious dental enamel

Author

Cyril Besnard, Ali Marie, Sisini Sasidharan, Petr Buček, Jessica M. Walker, Julia E. Parker, Thomas E.J. Moxham, Benedikt Daurer, Burkhard Kaulich, Majid Kazemian, Richard M. Shelton, Gabriel Landini, and Alexander M. Korsunsky

Subjects

Mechanics of Materials, Mechanical Engineering, General Materials Science

Abstract

This study reports the characterisation of human dental enamel caries using synchrotron nanoscale correlative ptychography and spectroscopic mapping in combination with scanning electron microscopy. A lamella ̴2.4 µm thick was extracted from a carious enamel region of a tooth using focused ion beam-scanning electron microscopy and transferred to two synchrotron beamlines to perform hard X-ray nano-fluorescence spectroscopy simultaneously with differential phase contrast mapping at a beam size of 55 × 45 nm. Soft X-ray ptychography data was then reconstructed with a pixel size of 8 nm. The two dimensional variation in chemistry and structure of carious enamel was revealed at the nanoscale, namely, the organisation of hydroxyapatite nano-crystals within enamel rods was imaged together with the inter-rod region. Correlative use of electron and X-ray scanning microscopies for the same sample allowed visualisation of the connection between structure and composition as presented in a compound image where colour indicates the relative calcium concentration in the sample, as indicated by the calcium Kα fluorescence intensity and grey scale shows the nanostructure. This highlights the importance of advanced correlative imaging to investigate the complex structure-composition relationships in nanomaterials of natural or artificial origin.

Published

2023

44. Autocrine Vitamin D-signaling switches off pro-inflammatory programs of Th1 cells

Author

Alexandra F. Freeman, Majid Kazemian, Jack A. Bibby, Daniel Chauss, Daniel S. Chertow, Michail S. Lionakis, Reuben McGregor, Tilo Freiwald, Nehal N. Mehta, Heather L. Teague, Luopin Wang, Audrey Kelly, Behdad Afzali, Estefania Nova-Lamperti, Kevin M. Vannella, Amna Malik, Daniella M. Schwartz, Bingyu Yan, Claudia Kemper, Didier Portilla, Giovanna Lombardi, Marcos J Ramos-Benitez, Susan D. John, Nichola Cooper, Arian Laurence, Paul Lavender, Erin E. West, Zonghao Zhang, and Dhaneshwar Kumar

Subjects

T-Lymphocytes, Immunology, Cell, Complement, BACH2, Article, STAT3, 03 medical and health sciences, 0302 clinical medicine, Vitamin D and neurology, medicine, Immunology and Allergy, Humans, Epigenetics, Vitamin D, Receptor, Autocrine signalling, Transcription factor, 030304 developmental biology, Inflammation, 0303 health sciences, biology, Chemistry, c-JUN, COVID-19, Cell biology, single cell RNA-sequencing, medicine.anatomical_structure, 030220 oncology & carcinogenesis, SARS-CoV2, biology.protein, Homeostasis

Abstract

The molecular mechanisms governing orderly shutdown and retraction of CD4+ type 1 helper T (TH1) cell responses remain poorly understood. Here we show that complement triggers contraction of TH1 responses by inducing intrinsic expression of the vitamin D (VitD) receptor and the VitD-activating enzyme CYP27B1, permitting T cells to both activate and respond to VitD. VitD then initiated the transition from pro-inflammatory interferon-γ+ TH1 cells to suppressive interleukin-10+ cells. This process was primed by dynamic changes in the epigenetic landscape of CD4+ T cells, generating super-enhancers and recruiting several transcription factors, notably c-JUN, STAT3 and BACH2, which together with VitD receptor shaped the transcriptional response to VitD. Accordingly, VitD did not induce interleukin-10 expression in cells with dysfunctional BACH2 or STAT3. Bronchoalveolar lavage fluid CD4+ T cells of patients with COVID-19 were TH1-skewed and showed de-repression of genes downregulated by VitD, from either lack of substrate (VitD deficiency) and/or abnormal regulation of this system. During homeostasis TH1 cells activate a cell-intrinsic inflammatory shutdown program and shift to IL-10 production. Chauss et al. find that this TH1 homeostatic program is dependent on vitamin D signaling and is disrupted in severe COVID-19.

Published

2021

45. STAT5 Represses a STAT3-Independent Th17-like Program during Th9 Cell Differentiation

Author

Grace A Taylor, David L. Boone, Matthew R. Olson, Maia G Clare, D. Alejandro Canaria, Majid Kazemian, Bingyu Yan, and Zonghao Zhang

Subjects

biology, Cellular differentiation, Immunology, Article, Chromatin, Cell biology, BATF, biology.protein, Immunology and Allergy, Gene silencing, Ectopic expression, Enhancer, Transcription factor, STAT5

Abstract

IL-9–producing Th cells, termed Th9 cells, contribute to immunity against parasites and cancers but have detrimental roles in allergic disease and colitis. Th9 cells differentiate in response to IL-4 and TGF-β, but these signals are insufficient to drive Th9 differentiation in the absence of IL-2. IL-2–induced STAT5 activation is required for chromatin accessibility within Il9 enhancer and promoter regions and directly transactivates the Il9 locus. STAT5 also suppresses gene expression during Th9 cell development, but these roles are less well defined. In this study, we demonstrate that human allergy-associated Th9 cells exhibited a signature of STAT5-mediated gene repression that is associated with the silencing of a Th17-like transcriptional signature. In murine Th9 cell differentiation, blockade of IL-2/STAT5 signaling induced the expression of IL-17 and the Th17-associated transcription factor Rorγt. However, IL-2–deprived Th9 cells did not exhibit a significant Th17- or STAT3-associated transcriptional signature. Consistent with these observations, differentiation of IL-17–producing cells under these conditions was STAT3-independent but did require Rorγt and BATF. Furthermore, ectopic expression of Rorγt and BATF partially rescued IL-17 production in STAT3-deficient Th17 cells, highlighting the importance of these factors in this process. Although STAT3 was not required for the differentiation of IL-17–producing cells under IL-2–deprived Th9 conditions, their prolonged survival was STAT3-dependent, potentially explaining why STAT3-independent IL-17 production is not commonly observed in vivo. Together, our data suggest that IL-2/STAT5 signaling plays an important role in controlling the balance of a Th9 versus a Th17-like differentiation program in vitro and in allergic disease.

Published

2021

46. A comprehensive single cell data analysis of lymphoblastoid cells reveals the role of super-enhancers in maintaining EBV latency

Author

Bingyu Yan, Chong Wang, Srishti Chakravorty, Zonghao Zhang, Simran D. Kadadi, Yuxin Zhuang, Isabella Sirit, Yonghua Hu, Minwoo Jung, Subhransu S. Sahoo, Luopin Wang, Kunming Shao, Nicole L. Anderson, Jorge L. Trujillo‐Ochoa, Scott D. Briggs, Xing Liu, Matthew R. Olson, Behdad Afzali, Bo Zhao, and Majid Kazemian

Subjects

Infectious Diseases, Virology

Abstract

We probed the lifecycle of Epstein-Barr virus (EBV) on a cell-by-cell basis using single cell RNA sequencing (scRNA-seq) data from nine publicly available lymphoblastoid cell lines (LCLs). While the majority of LCLs comprised cells containing EBV in the latent phase, two other clusters of cells were clearly evident and were distinguished by distinct expression of host and viral genes. Notably, both were high expressors of EBV LMP1/BNLF2 and BZLF1 compared to another cluster that expressed neither gene. The two novel clusters differed from each other in their expression of EBV lytic genes, including glycoprotein gene GP350. The first cluster, comprising GP350

Published

2022

47. Non-coding RNAs in immunoregulation and autoimmunity: Technological advances and critical limitations

Author

Dhaneshwar Kumar, Subhransu Sekhar Sahoo, Daniel Chauss, Majid Kazemian, and Behdad Afzali

Subjects

Immunology, Immunology and Allergy

Abstract

Immune cell function is critically dependent on precise control over transcriptional output from the genome. In this respect, integration of environmental signals that regulate gene expression, specifically by transcription factors, enhancer DNA elements, genome topography and non-coding RNAs (ncRNAs), are key components. The first three have been extensively investigated. Even though non-coding RNAs represent the vast majority of cellular RNA species, this class of RNA remains historically understudied. This is partly because of a lag in technological and bioinformatic innovations specifically capable of identifying and accurately measuring their expression. Nevertheless, recent progress in this domain has enabled a profusion of publications identifying novel sub-types of ncRNAs and studies directly addressing the function of ncRNAs in human health and disease. Many ncRNAs, including circular and enhancer RNAs, have now been demonstrated to play key functions in the regulation of immune cells and to show associations with immune-mediated diseases. Some ncRNAs may function as biomarkers of disease, aiding in diagnostics and in estimating response to treatment, while others may play a direct role in the pathogenesis of disease. Importantly, some are relatively stable and are amenable to therapeutic targeting, for example through gene therapy. Here, we provide an overview of ncRNAs and review technological advances that enable their study and hold substantial promise for the future. We provide context-specific examples by examining the associations of ncRNAs with four prototypical human autoimmune diseases, specifically rheumatoid arthritis, psoriasis, inflammatory bowel disease and multiple sclerosis. We anticipate that the utility and mechanistic roles of these ncRNAs in autoimmunity will be further elucidated in the near future.

Published

2022

48. Electrosynthesis of Co/PPy nanocomposites for ORR electrocatalysis: a study based on quasi-in situ X-ray absorption, fluorescence and in situ Raman spectroscopy

Author

Bocchetta, Patrizia, Gianoncelli, Alessandra, Abyaneh, Majid Kazemian, Kiskinova, Maya, Amati, Matteo, Gregoratti, Luca, Jezeršek, David, Mele, Claudio, and Bozzini, Benedetto

Published

2014

49. TCF-1 controls Treg cell functions that regulate inflammation, CD8+ T cell cytotoxicity and severity of colon cancer

Author

Kevin D. Pavelko, Majid Kazemian, Abu Osman, Abdulrahman Saadalla, Bingyu Yan, Ying Li, Fotini Gounari, Khashayarsha Khazaie, Jasmine Quandt, and Mahendra Pal Singh

Subjects

T cell, Immunology, FOXP3, chemical and pharmacologic phenomena, hemic and immune systems, Inflammation, Biology, medicine.anatomical_structure, KLF2, medicine, Cancer research, Immunology and Allergy, Cytotoxic T cell, Signal transduction, medicine.symptom, Cytotoxicity, Transcription factor

Abstract

The transcription factor TCF-1 is essential for the development and function of regulatory T (Treg) cells; however, its function is poorly understood. Here, we show that TCF-1 primarily suppresses transcription of genes that are co-bound by Foxp3. Single-cell RNA-sequencing analysis identified effector memory T cells and central memory Treg cells with differential expression of Klf2 and memory and activation markers. TCF-1 deficiency did not change the core Treg cell transcriptional signature, but promoted alternative signaling pathways whereby Treg cells became activated and gained gut-homing properties and characteristics of the TH17 subset of helper T cells. TCF-1-deficient Treg cells strongly suppressed T cell proliferation and cytotoxicity, but were compromised in controlling CD4+ T cell polarization and inflammation. In mice with polyposis, Treg cell-specific TCF-1 deficiency promoted tumor growth. Consistently, tumor-infiltrating Treg cells of patients with colorectal cancer showed lower TCF-1 expression and increased TH17 expression signatures compared to adjacent normal tissue and circulating T cells. Thus, Treg cell-specific TCF-1 expression differentially regulates TH17-mediated inflammation and T cell cytotoxicity, and can determine colorectal cancer outcome.

Published

2021

50. Application of OWA Based Classifier Fusion in Diagnosis and Treatment offering for Female Urinary Incontinence.

Author

Behzad Moshiri, Parisa Memar Moshrefi, Maryam Emami, and Majid Kazemian

Published

2006