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5 results on '"Christopher B. Lock"'

2. MR susceptibility contrast imaging using a 2D simultaneous multi-slice gradient-echo sequence at 7T.

Author

Wei Bian, Adam B Kerr, Eric Tranvinh, Sherveen Parivash, Benjamin Zahneisen, May H Han, Christopher B Lock, Maged Goubran, Kongrong Zhu, Brian K Rutt, and Michael M Zeineh

Subjects
Medicine, Science
Abstract

PurposeTo develop a 7T simultaneous multi-slice (SMS) 2D gradient-echo sequence for susceptibility contrast imaging, and to compare its quality to 3D imaging.MethodsA frequency modulated and phase cycled RF pulse was designed to simultaneously excite multiple slices in multi-echo 2D gradient-echo imaging. The imaging parameters were chosen to generate images with susceptibility contrast, including T2*-weighted magnitude/phase images, susceptibility-weighted images and quantitative susceptibility/R2* maps. To compare their image quality with 3D gradient-echo imaging, both 2D and 3D imaging were performed on 11 healthy volunteers and 4 patients with multiple sclerosis (MS). The signal to noise ratio (SNR) in gray and white matter and their contrast to noise ratio (CNR) was simulated for the 2D and 3D magnitude images using parameters from the imaging. The experimental SNRs and CNRs were measured in gray/white matter and deep gray matter structures on magnitude, phase, R2* and QSM images from volunteers and the visibility of MS lesions on these images from patients was visually rated. All SNRs and CNRs were compared between the 2D and 3D imaging using a paired t-test.ResultsAlthough the 3D magnitude images still had significantly higher SNRs (by 13.0~17.6%), the 2D magnitude and QSM images generated significantly higher gray/white matter or globus pallidus/putamen contrast (by 13.3~87.5%) and significantly higher MS lesion contrast (by 5.9~17.3%).Conclusion2D SMS gradient-echo imaging can serve as an alternative to often used 3D imaging to obtain susceptibility-contrast-weighted images, with an advantage of providing better image contrast and MS lesion sensitivity.

Published
2019
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3. Clonally expanded B cells in multiple sclerosis bind EBV EBNA1 and GlialCAM

Author

Tobias V Lanz, R Camille Brewer, Peggy P Ho, Kevin M Jude, Daniel Fernandez, Jae-Seung Moon, Ricardo A Fernandes, Alejandro M Gomez, Gabriel-Stefan Nadj, Christopher M Bartley, Ryan D Schubert, Isobel A Hawes, Sara E Vazquez, Manasi Iyer, J Bradley Zuchero, Bianca Teegen, Jeffrey E Dunn, Christopher B Lock, Lucas B Kipp, Victoria C Cotham, Beatrix M Ueberheide, Blake T Aftab, Mark S Anderson, Joseph L DeRisi, Michael R Wilson, Rachael JM Bashford-Rogers, Michael Platten, K Christopher Garcia, Lawrence Steinman, and William H Robinson

Subjects
Epstein-Barr Virus Infections, Herpesvirus 4, Human, Multiple Sclerosis, General Science & Technology, Nerve Tissue Proteins, Neurodegenerative, Autoimmune Disease, Article, Mice, Clinical Research, Genetics, 2.1 Biological and endogenous factors, Animals, Humans, Aetiology, Neuron-Glia, B-Lymphocytes, Multidisciplinary, Cell Adhesion Molecules, Neuron-Glia, Herpesvirus 4, Neurosciences, Brain Disorders, Infectious Diseases, Epstein-Barr Virus Nuclear Antigens, Neurological, Cell Adhesion Molecules, Human, Biotechnology
Abstract

Multiple sclerosis (MS) is a heterogenous autoimmune disease in which autoreactive lymphocytes attack the myelin sheath of the central nervous system. B lymphocytes in the cerebrospinal fluid (CSF) of patients with MS contribute to inflammation and secrete oligoclonal immunoglobulins1,2. Epstein-Barr virus (EBV) infection has been epidemiologically linked to MS, but its pathological role remains unclear3. Here we demonstrate high-affinity molecular mimicry between the EBV transcription factor EBV nuclear antigen 1 (EBNA1) and the central nervous system protein glial cell adhesion molecule (GlialCAM) and provide structural and in vivo functional evidence for its relevance. A cross-reactive CSF-derived antibody was initially identified by single-cell sequencing of the paired-chain Bcell repertoire of MS blood and CSF, followed by protein microarray-based testing of recombinantly expressed CSF-derived antibodies against MS-associated viruses. Sequence analysis, affinity measurements and the crystal structure of the EBNA1-peptide epitope in complex with the autoreactive Fab fragment enabled tracking of the development of the naive EBNA1-restricted antibody to a mature EBNA1-GlialCAM cross-reactive antibody. Molecular mimicry is facilitated by a post-translational modification of GlialCAM. EBNA1 immunization exacerbates disease in a mouse model of MS, and anti-EBNA1 and anti-GlialCAM antibodies are prevalent in patients with MS. Our results provide a mechanistic link for the association between MS and EBV and could guide the development of new MS therapies.

Published
2022
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5. Differential effects of anti-CD20 therapy on CD4 and CD8 T cells and implication of CD20-expressing CD8 T cells in MS disease activity

Author

Koji Shinoda, Rui Li, Ayman Rezk, Ina Mexhitaj, Kristina R. Patterson, Mihir Kakara, Leah Zuroff, Jeffrey L. Bennett, H.-Christian von Büdingen, Robert Carruthers, Keith R. Edwards, Robert Fallis, Paul S. Giacomini, Benjamin M. Greenberg, David A. Hafler, Carolina Ionete, Ulrike W. Kaunzner, Christopher B. Lock, Erin E. Longbrake, Gabriel Pardo, Fredrik Piehl, Martin S. Weber, Tjalf Ziemssen, Dina Jacobs, Jeffrey M. Gelfand, Anne H. Cross, Briana Cameron, Bruno Musch, Ryan C. Winger, Xiaoming Jia, Christopher T. Harp, Ann Herman, and Amit Bar-Or

Subjects
Multidisciplinary, Multiple Sclerosis, Mononuclear, Neurosciences, CD20dimCD8+ T cells, CD8-Positive T-Lymphocytes, Neurodegenerative, Flow Cytometry, anti-CD20 therapy, Brain Disorders, CD20dim T cells, Recurrence, ocrelizumab, Leukocytes, Humans, 2.1 Biological and endogenous factors, CD20, Antigens, Aetiology, CD20-expressing T cells
Abstract

A small proportion of multiple sclerosis (MS) patients develop new disease activity soon after starting anti-CD20 therapy. This activity does not recur with further dosing, possibly reflecting deeper depletion of CD20-expressing cells with repeat infusions. We assessed cellular immune profiles and their association with transient disease activity following anti-CD20 initiation as a window into relapsing disease biology. Peripheral blood mononuclear cells from independent discovery and validation cohorts of MS patients initiating ocrelizumab were assessed for phenotypic and functional profiles using multiparametric flow cytometry. Pretreatment CD20-expressing T cells, especially CD20 dim CD8 + T cells with a highly inflammatory and central nervous system (CNS)-homing phenotype, were significantly inversely correlated with pretreatment MRI gadolinium-lesion counts, and also predictive of early disease activity observed after anti-CD20 initiation. Direct removal of pretreatment proinflammatory CD20 dim CD8 + T cells had a greater contribution to treatment-associated changes in the CD8 + T cell pool than was the case for CD4 + T cells. Early disease activity following anti-CD20 initiation was not associated with reconstituting CD20 dim CD8 + T cells, which were less proinflammatory compared with pretreatment. Similarly, this disease activity did not correlate with early reconstituting B cells, which were predominantly transitional CD19 + CD24 high CD38 high with a more anti-inflammatory profile. We provide insights into the mode-of-action of anti-CD20 and highlight a potential role for CD20 dim CD8 + T cells in MS relapse biology; their strong inverse correlation with both pretreatment and early posttreatment disease activity suggests that CD20-expressing CD8 + T cells leaving the circulation (possibly to the CNS) play a particularly early role in the immune cascades involved in relapse development.

Published
2023

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