Your search keyword '"Timothy A. Myers"' showing total 8 results

1. Chemokine positioning determines mutually exclusive roles for their receptors in extravasation of pathogenic human T cells

Author

Farhat Parween, Satya P. Singh, Hongwei H Zhang, Nausheen Kathuria, Francisco A. Otaizo-Carrasquero, Amirhossein Shamsaddini, Paul J. Gardina, Sundar Ganesan, Juraj Kabat, Hernan A. Lorenzi, Timothy G. Myers, and Joshua M. Farber

Subjects

Article

Abstract

Pro-inflammatory T cells co-express multiple chemokine receptors, but the distinct functions of individual receptors on these cells are largely unknown. Human Th17 cells uniformly express the chemokine receptor CCR6, and we discovered that the subgroup of CD4+CCR6+cells that co-express CCR2 possess a pathogenic Th17 signature, can produce inflammatory cytokines independent of TCR activation, and are unusually efficient at transendothelial migration (TEM). The ligand for CCR6, CCL20, was capable of binding to activated endothelial cells (ECs) and inducing firm arrest of CCR6+CCR2+cells under conditions of flow - but CCR6 could not mediate TEM. By contrast, CCL2 and other ligands for CCR2, despite being secreted from both luminal and basal sides of ECs, failed to bind to the EC surfaces - and CCR2 could not mediate arrest. Nonetheless, CCR2 was required for TEM. To understand if CCR2’s inability to mediate arrest was due solely to an absence of EC-bound ligands, we generated a CCL2-CXCL9 chimeric chemokine that could bind to the EC surface. Although display of CCL2 on the ECs did indeed lead to CCR2-mediated arrest of CCR6+CCR2+cells, activating CCR2 with surface-bound CCL2 blocked TEM. We conclude that mediating arrest and TEM are mutually exclusive activities of chemokine receptors and/or their ligands that depend, respectively, on chemokines that bind to the EC luminal surfaces versus non-binding chemokines that form transendothelial gradients under conditions of flow. Our findings provide fundamental insights into mechanisms of lymphocyte extravasation and may lead to novel strategies to block or enhance their migration into tissue.

Published

2023

2. Human CCR6+Th cells show both an extended stable gradient of Th17 activity and imprinted plasticity

Author

Satya P. Singh, Farhat Parween, Nithin Edara, Hongwei H. Zhang, Jinguo Chen, Francisco Otaizo-Carrasquero, Debby Cheng, Nicole A. Oppenheim, Amy Ransier, Wenjun Zhu, Amirhossein Shamsaddini, Paul J. Gardina, Samuel W. Darko, Tej Pratap Singh, Daniel C. Douek, Timothy G. Myers, and Joshua M. Farber

Subjects

Immunology, Immunology and Allergy, Article

Abstract

Th17 cells have been investigated in mice primarily for their contributions to autoimmune diseases. However, the pathways of differentiation of Th17 and related (type 17) cells and the structure of the type 17 memory population in humans are not well understood; such understanding is critical for manipulating these cellsin vivo. By exploiting differences in levels of surface CCR6, we found that human type 17 memory cells, including individual T cell clonotypes, form an elongated continuum of type 17 character along which cells can be driven by increasing RORγt. This continuum includes cells preserved within the memory pool with potentials that reflect the early preferential activation of multiple over single lineages. The CCR6+cells’ phenotypes and epigenomes are stable across cell divisions under homeostatic conditions. Nonetheless, activation in polarizing and non-polarizing conditions can yield additional functionalities, revealing, respectively, both environmentally induced and imprinted mechanisms that contribute differentially across the continuum to yield the unusual plasticity ascribed to type 17 cells.

Published

2023

3. A UVB-responsive common variant at chr7p21.1 confers tanning response and melanoma risk via regulation of the aryl hydrocarbon receptor gene (AHR)

Author

Kevin M. Brown, Tongwu Zhang, Mai Xu, Grant Sfa, Timothy G. Myers, Mark M. Iles, Helen T. Michael, Andrew D. Wells, Ashley Jermusyk, Jiyeon Choi, Michael A. Kovacs, Matthew Law, Matthew E. Johnson, Rohit Thakur, K.L. Jones, Raj Chari, Rebecca C Hennessey, Patricia Bunda, Maria Teresa Landi, Herbert Higson, Mehl L, Lea Jessop, Alessandra Chesi, Sowards H, Alisa M. Goldstein, Glenn Merlino, and S. J. Chanock

Subjects

Cell growth, Melanoma, medicine, Cancer research, Genome-wide association study, Locus (genetics), Environmental exposure, Biology, Allele, medicine.disease, Phenotype, Chromatin

Abstract

Genome-wide association studies have identified a melanoma-associated locus on chromosome band 7p21.1 with rs117132860 as the lead SNP, and a secondary independent signal marked by rs73069846. rs117132860 is also associated with tanning ability and cutaneous squamous cell carcinoma (cSCC). As ultraviolet radiation (UVR) is a key environmental exposure for all three traits, we investigated the mechanisms by which this locus contributes to melanoma risk, focusing on cellular response to UVR. Fine-mapping of melanoma GWAS identified four independent sets of candidate causal variants. A GWAS region-focused Capture-C study of primary melanocytes identified physical interactions between two causal sets and the promoter of the aryl hydrocarbon receptor gene (AHR). Subsequent chromatin state annotation, eQTL, and luciferase assays identified rs117132860 as a functional variant and reinforced AHR as a likely causal gene. As AHR plays critical roles in cellular response to dioxin and UVR, we explored links between this SNP and AHR expression after both 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) and ultraviolet B (UVB) exposure. Allele-specific AHR binding to rs117132860-G was enhanced following both, consistent with predicted weakened AHR binding to the risk/poor-tanning rs117132860-A allele, and allele-preferential AHR expression driven from the protective rs117132860-G allele was observed following UVB exposure. Small deletions surrounding rs117132860 via CRISPR abrogates AHR binding, reduces melanocyte cell growth, and prolongs growth arrest following UVB exposure. These data suggest AHR is a melanoma susceptibility gene at the 7p21.1 risk locus, and rs117132860 is a functional variant within a UVB-responsive element, leading to allelic AHR expression, and altering melanocyte growth phenotypes upon exposure.

Published

2021

4. Transcriptional Profiling of Patient Isolates Identifies a Novel TOR Regulatory Pathway in Cryptococcal Virulence

Author

Timothy G. Myers, Paul J. Gardina, Jin Qiu, Yoon-Dong Park, Christopher Hollingsworth, Joseph N Jarvis, Peter R. Williamson, Tihana Bicanic, Sarah E. Davis, Tibor Valyi-Nagy, Thomas S. Harrison, Angela Loyse, Guowu Hu, and Nannan Zhang

Subjects

Transcriptome, Gene expression profiling, biology, Cryptococcus, Virulence, Regulatory Pathway, biology.organism_classification, Enhancer, Gene, Derepression, Microbiology

Abstract

Human infection withCryptococcuscauses up to a quarter million AIDS-related deaths annually and is the most common cause of non-viral meningitis in the United States. As an opportunistic fungal pathogen,C. neoformansis distinguished by its ability to adapt to diverse host environments including plants, amoeba and mammals. In the present study, comparative transcriptomics of the fungus within human cerebrospinal fluid identified expression profiles representative of low-nutrient adaptive responses. Transcriptomics of fungal isolates from a cohort of HIV/AIDS patients identified a low nutrient-induced gene, an alternative carbon nutrient transporterSTL1associated with poor early fungicidal activity, an important clinical prognostic marker. Mouse modeling and pathway analysis demonstrated a role forSTL1in mammalian pathogenesis and revealed thatSTL1expression is regulated by a novel target-of-rapamycin (TOR)-related multi-gene regulatory mechanism involving theCAC2subunit of the chromatin assembly complex 1, CAF-1. In this pathway, the TOR-related RNA chaperone,VAD1was found to transcriptionally regulate a cryptococcal homolog of a cytosolic protein Ecm15, in turn, required for nuclear transport of the Cac2 protein. Derepression ofSTL1by theCAC2-containing CAF-1 complex was mediated by Cac2 and modulated binding and suppression of theSTL1enhancer element. Derepression ofSTL1resulted in enhanced survival and growth of the fungus in the presence of low nutrient, alternative carbon sources, facilitating virulence in mice. The study underscores the utility of ex vivo expression profiling of fungal clinical isolates and provides fundamental genetic understanding of saprophyte adaption to the human host.Author summaryThe fungusCryptococcusis a fungal pathogen that kills an estimated quarter of a million individuals yearly and is the most common cause of meningitis in the United States. The fungus is carried in about 10% of the adult population and, after re-activation, causes disease in a wide variety of individuals including HIV-infected as well as immunosuppression either from genetic defects or after immune suppressive treatments due to transplant conditioning, cancer therapy or treatment of autoimmune diseases. The fungus is widely carried in the soil and trees and can infect plants, single cell organisms and even dolphins. However, mechanisms for this widespread ability to infect a variety of hosts are poorly understood. The present study identified adaptation to low nutrients as a key property that allows the fungus to infect these diverse hosts and identified a nutrient transporter,STL1to be associated with a marker of poor clinical outcome in a cohort of HIV/AIDS patients. Understanding molecular mechanisms involved in environmental adaptation may help to design better methods of control and treatment of widely dispersed fungal pathogens such asCryptococcus.

Published

2018

5. Prolonged culture of primary human keratinocytes isolated from suction blisters

Author

Ian N. Moore, Sandip K. Datta, Christopher A. Myles, Francisco Otaizo-Carrasquero, Minai Mahnaz, Ian A. Myles, Noah J. Earland, Erik D. Anderson, Inka Sastalla, and Timothy G. Myers

Subjects

Cell type, medicine.anatomical_structure, Cytokine, Epidermis (botany), Dermis, In vivo, medicine.medical_treatment, medicine, Biology, Keratinocyte, In vitro, Cell biology, Suction blister

Abstract

Keratinocytes are the most abundant cell type in the epidermis. They prevent desiccation and provide immunological and barrier defense against potential pathogens such as Staphylococcus aureus and Candida albicans. The study of this first line of immune defense is hindered by invasive isolation methods and insufficient techniques for long-term passage of primary keratinocytes in vitro. Primary keratinocytes have been successfully isolated from blister roofs induced by negative pressure, which separates the epidermis from the dermis in vivo in human subjects. This method allows collection of pure epidermal cells without dermal contamination in a minimally invasive manner. However, the isolated keratinocytes differentiate and senesce when cultured in vitro beyond five passages. Here, we present evidence that the Rho kinase (ROCK) inhibitor Y-27632 can be used to effectively increase the proliferative capabilities of keratinocytes isolated using the suction blister method, similar to what has been previously reported for primary keratinocytes isolated using alternative methods. We show that the increase in passage number is directly correlated to delayed differentiation, and that cells passaged long term with the inhibitor retain their ability to stratify in organotypic raft cultures and respond to cytokine treatment; additionally, the late passage cells have a heterogeneous mix of differentiated and non-differentiated cells which may be predicted by a ratio of select differentiation markers. The described method presents a minimally invasive procedure for keratinocyte isolation and prolonged culture that allows analysis of keratinocyte function in both healthy volunteers and patients with dermatologic diseases.

Published

2018

6. Characterizing concentration-dependent neural dynamics of 4-aminopyridine-induced epileptiform activity

Author

Timothy L. Myers, Maxim Bazhenov, Oscar C. González, and Jacob B Stein

Subjects

0303 health sciences, Chemistry, Antagonist, 4-Aminopyridine, Hippocampal formation, medicine.disease, KCC2 co-transporter, Article, 03 medical and health sciences, Epilepsy, Concentration dependent, 0302 clinical medicine, Epileptiform activity, In vivo, medicine, In patient, Ictal, 4-aminopyridine, in vitro brain slices, Neuroscience, 030217 neurology & neurosurgery, 030304 developmental biology, medicine.drug

Abstract

Epilepsy remains one of the most common neurological disorders. In patients, it is characterized by unprovoked, spontaneous, and recurring seizures or ictal events. Typically, inter-ictal events or large bouts of population level activity can be measured between seizures and are generally asymptomatic. Decades of research has focused on understanding the mechanisms leading to the development of seizure-like activity using various proconvulsive pharmacological agents, including 4-aimnopyridine (4AP). However, the lack of consistency in the concentrations used for studying 4AP-induced epileptiform activity in animal models may give rise to differences in the results and interpretation thereof. Indeed, the range of 4AP concentration in both in vivo and in vitro studies varies from 3μM to 40mM. Here, we explored the effects of various 4AP concentrations on the development and characteristics of hippocampal epileptiform activity in acute mouse brain slices of either sex. Using multielectrode array recordings, we show that 4AP induces hippocampal epileptiform activity for broad range of concentrations. The frequency component and the spatio-temporal patterns of the epileptiform activity revealed a dose-dependent response. Finally, in the presence of 4AP, reduction of KCC2 co-transporter activity by KCC2 antagonist VU0240551 prevented the manifestation of the frequency component differences between different concentrations of 4AP. Overall, the study predicts that different concentrations of 4AP can result in the different mechanisms behind hippocampal epileptiform activity, of which some are dependent on the KCC2 co-transporter function.

Published

2018

7. Evaluation of the External RNA Controls Consortium (ERCC) reference material using a modified Latin square design

Author

Marc L. Salit, Sarah A. Munro, Anne Bergstrom Lucas, P. Scott Pine, Timothy G. Myers, Jennifer McDaniel, Qin Su, Jean Lozach, Jerod Parsons, and Sarah M. Jacobs-Helber

Subjects

0301 basic medicine, Microarray, RNA-Seq, Genomics, Computational biology, Biology, Sensitivity and Specificity, Spike-in controls, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Reference Values, Latin square, Gene expression, Humans, Genetics, Human liver, ERCC, Sequence Analysis, RNA, Dynamic range, Methodology Article, Gene Expression Profiling, High-Throughput Nucleotide Sequencing, Reproducibility of Results, RNA, RNA sequencing, RNA controls, Gene expression profiling, 030104 developmental biology, DNA microarray, 030217 neurology & neurosurgery, Algorithms, Biotechnology

Abstract

Background Highly multiplexed assays for quantitation of RNA transcripts are being used in many areas of biology and medicine. Using data generated by these transcriptomic assays requires measurement assurance with appropriate controls. Methods to prototype and evaluate multiple RNA controls were developed as part of the External RNA Controls Consortium (ERCC) assessment process. These approaches included a modified Latin square design to provide a broad dynamic range of relative abundance with known differences between four complex pools of ERCC RNA transcripts spiked into a human liver total RNA background. Results ERCC pools were analyzed on four different microarray platforms: Agilent 1- and 2-color, Illumina bead, and NIAID lab-made spotted microarrays; and two different second-generation sequencing platforms: the Life Technologies 5500xl and the Illumina HiSeq 2500. Individual ERCC controls were assessed for reproducible performance in signal response to concentration among the platforms. Most demonstrated linear behavior if they were not located near one of the extremes of the dynamic range. Performance issues with any individual ERCC transcript could be attributed to detection limitations, platform-specific target probe issues, or potential mixing errors. Collectively, these pools of spike-in RNA controls were evaluated for suitability as surrogates for endogenous transcripts to interrogate the performance of the RNA measurement process of each platform. The controls were useful for establishing the dynamic range of the assay, as well as delineating the useable region of that range where differential expression measurements, expressed as ratios, would be expected to be accurate. Conclusions The modified Latin square design presented here uses a composite testing scheme for the evaluation of multiple performance characteristics: linear performance of individual controls, signal response within dynamic range pools of controls, and ratio detection between pairs of dynamic range pools. This compact design provides an economical sample format for the evaluation of multiple external RNA controls within a single experiment per platform. These results indicate that well-designed pools of RNA controls, spiked into samples, provide measurement assurance for endogenous gene expression studies. Electronic supplementary material The online version of this article (doi:10.1186/s12896-016-0281-x) contains supplementary material, which is available to authorized users.

Published

2016

8. Disruption of telomerase trafficking by TCAB1 mutation causes dyskeratosis congenita

Author

Sharon A. Savage, Marina Shkreli, Neelam Giri, Blanche P. Alter, Steven E. Artandi, Franklin L. Zhong, Lea Jessop, Renee Chen, and Timothy G. Myers

Subjects

Models, Molecular, Telomerase, Hoyeraal-Hreidarsson syndrome, Biology, Dyskeratosis Congenita, Research Communication, Telomerase RNA component, Telomere Homeostasis, Genetics, medicine, Animals, Humans, Telomerase reverse transcriptase, Amino Acid Sequence, medicine.disease, Molecular biology, Pedigree, Telomere, Cell biology, Protein Transport, Cajal body, Mutation, Sequence Alignment, Dyskeratosis congenita, Molecular Chaperones, Developmental Biology

Abstract

Dyskeratosis congenita (DC) is a genetic disorder of defective tissue maintenance and cancer predisposition caused by short telomeres and impaired stem cell function. Telomerase mutations are thought to precipitate DC by reducing either the catalytic activity or the overall levels of the telomerase complex. However, the underlying genetic mutations and the mechanisms of telomere shortening remain unknown for as many as 50% of DC patients, who lack mutations in genes controlling telomere homeostasis. Here, we show that disruption of telomerase trafficking accounts for unknown cases of DC. We identify DC patients with missense mutations in TCAB1, a telomerase holoenzyme protein that facilitates trafficking of telomerase to Cajal bodies. Compound heterozygous mutations in TCAB1 disrupt telomerase localization to Cajal bodies, resulting in misdirection of telomerase RNA to nucleoli, which prevents telomerase from elongating telomeres. Our findings establish telomerase mislocalization as a novel cause of DC, and suggest that telomerase trafficking defects may contribute more broadly to the pathogenesis of telomere-related disease.

Published

2011