Your search keyword '"Creg J, Workman"' showing total 7 results

1. Author Correction: Aplp1 interacts with Lag3 to facilitate transmission of pathologic α-synuclein

Author

Xiaobo Mao, Hao Gu, Donghoon Kim, Yasuyoshi Kimura, Ning Wang, Enquan Xu, Ramhari Kumbhar, Xiaotian Ming, Haibo Wang, Chan Chen, Shengnan Zhang, Chunyu Jia, Yuqing Liu, Hetao Bian, Senthilkumar S. Karuppagounder, Fatih Akkentli, Qi Chen, Longgang Jia, Heehong Hwang, Su Hyun Lee, Xiyu Ke, Michael Chang, Amanda Li, Jun Yang, Cyrus Rastegar, Manjari Sriparna, Preston Ge, Saurav Brahmachari, Sangjune Kim, Shu Zhang, Yasushi Shimoda, Martina Saar, Haiqing Liu, Sin Ho Kweon, Mingyao Ying, Creg J. Workman, Dario A. A. Vignali, Ulrike C. Muller, Cong Liu, Han Seok Ko, Valina L. Dawson, and Ted M. Dawson

Subjects

Science

Published

2024

2. Aplp1 interacts with Lag3 to facilitate transmission of pathologic α-synuclein

Author

Xiaobo Mao, Hao Gu, Donghoon Kim, Yasuyoshi Kimura, Ning Wang, Enquan Xu, Ramhari Kumbhar, Xiaotian Ming, Haibo Wang, Chan Chen, Shengnan Zhang, Chunyu Jia, Yuqing Liu, Hetao Bian, Senthilkumar S. Karuppagounder, Fatih Akkentli, Qi Chen, Longgang Jia, Heehong Hwang, Su Hyun Lee, Xiyu Ke, Michael Chang, Amanda Li, Jun Yang, Cyrus Rastegar, Manjari Sriparna, Preston Ge, Saurav Brahmachari, Sangjune Kim, Shu Zhang, Yasushi Shimoda, Martina Saar, Haiqing Liu, Sin Ho Kweon, Mingyao Ying, Creg J. Workman, Dario A. A. Vignali, Ulrike C. Muller, Cong Liu, Han Seok Ko, Valina L. Dawson, and Ted M. Dawson

Subjects

Science

Abstract

Abstract Pathologic α-synuclein (α-syn) spreads from cell-to-cell, in part, through binding to the lymphocyte-activation gene 3 (Lag3). Here we report that amyloid β precursor-like protein 1 (Aplp1) interacts with Lag3 that facilitates the binding, internalization, transmission, and toxicity of pathologic α-syn. Deletion of both Aplp1 and Lag3 eliminates the loss of dopaminergic neurons and the accompanying behavioral deficits induced by α-syn preformed fibrils (PFF). Anti-Lag3 prevents the internalization of α-syn PFF by disrupting the interaction of Aplp1 and Lag3, and blocks the neurodegeneration induced by α-syn PFF in vivo. The identification of Aplp1 and the interplay with Lag3 for α-syn PFF induced pathology deepens our insight about molecular mechanisms of cell-to-cell transmission of pathologic α-syn and provides additional targets for therapeutic strategies aimed at preventing neurodegeneration in Parkinson’s disease and related α-synucleinopathies.

Published

2024

3. Lymphocyte‐Activation Gene 3 Facilitates Pathological Tau Neuron‐to‐Neuron Transmission

Author

Chan Chen, Ramhari Kumbhar, Hu Wang, Xiuli Yang, Kundlik Gadhave, Cyrus Rastegar, Yasuyoshi Kimura, Adam Behensky, Sumasri Kotha, Grace Kuo, Sruthi Katakam, Deok Jeong, Liang Wang, Anthony Wang, Rong Chen, Shu Zhang, Lingtao Jin, Creg J. Workman, Dario A. A. Vignali, Olga Pletinkova, Hongpeng Jia, Weiyi Peng, David W. Nauen, Philip C. Wong, Javier Redding‐Ochoa, Juan C. Troncoso, Mingyao Ying, Valina L. Dawson, Ted M. Dawson, and Xiaobo Mao

Subjects

lymphocyte‐activation gene 3, cell‐to‐cell transmission, receptor, Tau, Tau preformed fibrils, Science

Abstract

Abstract The spread of prion‐like protein aggregates is a common driver of pathogenesis in various neurodegenerative diseases, including Alzheimer's disease (AD) and related Tauopathies. Tau pathologies exhibit a clear progressive spreading pattern that correlates with disease severity. Clinical observation combined with complementary experimental studies has shown that Tau preformed fibrils (PFF) are prion‐like seeds that propagate pathology by entering cells and templating misfolding and aggregation of endogenous Tau. While several cell surface receptors of Tau are known, they are not specific to the fibrillar form of Tau. Moreover, the underlying cellular mechanisms of Tau PFF spreading remain poorly understood. Here, it is shown that the lymphocyte‐activation gene 3 (Lag3) is a cell surface receptor that binds to PFF but not the monomer of Tau. Deletion of Lag3 or inhibition of Lag3 in primary cortical neurons significantly reduces the internalization of Tau PFF and subsequent Tau propagation and neuron‐to‐neuron transmission. Propagation of Tau pathology and behavioral deficits induced by injection of Tau PFF in the hippocampus and overlying cortex are attenuated in mice lacking Lag3 selectively in neurons. These results identify neuronal Lag3 as a receptor of pathologic Tau in the brain，and for AD and related Tauopathies, a therapeutic target.

Published

2024

4. Regulatory T Cells: Barriers of Immune Infiltration Into the Tumor Microenvironment

Author

Ellen N. Scott, Angela M. Gocher, Creg J. Workman, and Dario A. A. Vignali

Subjects

regulatory T cells (Treg), immune infiltration, tumor microenvironment, cancer, vasculature, stroma, Immunologic diseases. Allergy, RC581-607

Abstract

Regulatory T cells (Tregs) are key immunosuppressive cells that promote tumor growth by hindering the effector immune response. Tregs utilize multiple suppressive mechanisms to inhibit pro-inflammatory responses within the tumor microenvironment (TME) by inhibition of effector function and immune cell migration, secretion of inhibitory cytokines, metabolic disruption and promotion of metastasis. In turn, Tregs are being targeted in the clinic either alone or in combination with other immunotherapies, in efforts to overcome the immunosuppressive TME and increase anti-tumor effects. However, it is now appreciated that Tregs not only suppress cells intratumorally via direct engagement, but also serve as key interactors in the peritumor, stroma, vasculature and lymphatics to limit anti-tumor immune responses prior to tumor infiltration. We will review the suppressive mechanisms that Tregs utilize to alter immune and non-immune cells outside and within the TME and discuss how these mechanisms collectively allow Tregs to create and promote a physical and biological barrier, resulting in an immune-excluded or limited tumor microenvironment.

Published

2021

5. Treg-Cell-Derived IL-35-Coated Extracellular Vesicles Promote Infectious Tolerance

Author

Jeremy A. Sullivan, Yusuke Tomita, Ewa Jankowska-Gan, Diego A. Lema, Matt P. Arvedson, Ashita Nair, William Bracamonte-Baran, Ying Zhou, Kristy K. Meyer, Weixiong Zhong, Deepali V. Sawant, Andrea L. Szymczak-Workman, Qianxia Zhang, Creg J. Workman, Seungpyo Hong, Dario A.A. Vignali, and William J. Burlingham

Subjects

Biology (General), QH301-705.5

Abstract

Summary: Interleukin-35 (IL-35) is an immunosuppressive cytokine composed of Epstein-Barr-virus-induced protein 3 (Ebi3) and IL-12α chain (p35) subunits, yet the forms that IL-35 assume and its role in peripheral tolerance remain elusive. We induce CBA-specific, IL-35-producing T regulatory (Treg) cells in TregEbi3WT C57BL/6 reporter mice and identify IL-35 producers by expression of Ebi3TdTom gene reporter plus Ebi3 and p35 proteins. Curiously, both subunits of IL-35 are displayed on the surface of tolerogen-specific Foxp3+ and Foxp3neg (iTr35) T cells. Furthermore, IL-35 producers, although rare, secrete Ebi3 and p35 on extracellular vesicles (EVs) targeting a 25- to 100-fold higher number of T and B lymphocytes, causing them to acquire surface IL-35. This surface IL-35 is absent when EV production is inhibited or if Ebi3 is genetically deleted in Treg cells. The unique ability of EVs to coat bystander lymphocytes with IL-35, promoting exhaustion in, and secondary suppression by, non-Treg cells identifies a novel mechanism of infectious tolerance. : Sullivan et al. show that while many factors and cytokines contribute to primary immunosuppression, EV-associated IL-35 uniquely promotes “infectious” tolerance not only by inducing IL-35 production in non-Treg cells but also by causing an immunosuppressive phenotype in EV-acquiring T and B cells, leading to secondary suppression of immune responses. Keywords: IL-35, extracellular vesicles, cytokines, tolerance, Treg, tetraspanin, Ebi3, p35, CD81

Published

2020

6. Lymphocyte Activation Gene-3 (LAG-3) negatively regulates environmentally-induced autoimmunity.

Author

Vibha Jha, Creg J Workman, Tracy L McGaha, Liping Li, Jaya Vas, Dario A A Vignali, and Marc Monestier

Subjects

Medicine, Science

Abstract

Environmental factors including drugs, mineral oils and heavy metals such as lead, gold and mercury are triggers of autoimmune diseases in animal models or even in occupationally exposed humans. After exposure to subtoxic levels of mercury (Hg), genetically susceptible strains of mice develop an autoimmune disease characterized by the production of highly specific anti-nucleolar autoantibodies, hyperglobulinemia and nephritis. However, mice can be tolerized to the disease by a single low dose administration of Hg. Lymphocyte Activation Gene-3 (LAG-3) is a CD4-related, MHC-class II binding molecule expressed on activated T cells and NK cells which maintains lymphocyte homeostatic balance via various inhibitory mechanisms. In our model, administration of anti-LAG-3 monoclonal antibody broke tolerance to Hg resulting in autoantibody production and an increase in serum IgE level. In addition, LAG-3-deficient B6.SJL mice not only had increased susceptibility to Hg-induced autoimmunity but were also unresponsive to tolerance induction. Conversely, adoptive transfer of wild-type CD4(+) T cells was able to partially rescue LAG-3-deficient mice from the autoimmune disease. Further, in LAG-3-deficient mice, mercury elicited higher amounts of IL-6, IL-4 and IFN-γ, cytokines known to play a critical role in mercury-induced autoimmunity. Therefore, we conclude that LAG-3 exerts an important regulatory effect on autoimmunity elicited by a common environmental pollutant.

Published

2014

7. Detection of Protease Activity Using a Fluorescence-Enhancement Globular Substrate

Author

Edward W. Voss, Creg J. Workman, and Mark E. Mummert

Subjects

Biology (General), QH301-705.5

Abstract

Bovine serum albumin (BSA) highly derivatized with fluorescein isothiocyanate (FITC, isomer I) served as a fluorescent enhancement substrate to measure protease activity. In the native globular BSA structure, the fluorescence of the lysine-conjugated fluorescein moieties was quenched 98%. Proteolytic digestion of highly derivatized BSA with Pronase® resulted in fluorescence enhancement of 4300%. Both α-chymotrypsin and proteinase K yielded lower but similar fluorescence enhancement values of 2880% and 2800%, respectively. Digestion of the fluorescein-BSA substrate with trypsin, which required basic amino acids for activity, showed fluorescence enhancement of 1480% reflecting the fluorescein-lysine thiocarbamyl linkage. When derivatized substrate was pretreated with a thiol-reducing agent prior to incubation with proteases, a relatively small increase in fluorescence was noted relative to the untreated substrate except in the case of Pronase. The minimum sensitivity of proteolytic activity, based on a comparison of untreated and reduced FITC25BSA was 32 × 10−6 units for 1 ng proteinase K, 1 × 10−3 units for 1 ng α-chymotrypsin and 10 × 10−3 units for Pronase and trypsin (1 ng each). The fluorescence enhancement assay was suited for sensitive intensity measurements or as an endpoint assay to detect protease activity.

Published

1996