Z. Liu scite author profile

Background: Individuals with Chronic Inflammatory Diseases (CID) are frequently treated with immunosuppressive medications that can increase their risk of severe COVID-19. While novel mRNA-based SARS-CoV-2 vaccination platforms provide robust protection in immunocompetent individuals, the immunogenicity in CID patients on immunosuppression is not well established. Therefore, determining the potency of SARS-CoV-2 vaccines in the setting of immunosuppression is essential to risk-stratify CID patients with impaired protection and provide clinical guidance regarding medication management. Methods: We conducted a prospective assessment of mRNA-based vaccine immunogenicity in 133 adults with CIDs and 53 immunocompetent controls. Blood from participants over 18 years of age was collected before initial immunization and 1-2 weeks after the second immunization. Serum anti-SARS-CoV-2 spike (S) IgG+ binding, neutralizing antibody titers, and circulating S-specific plasmablasts were quantified to assess the magnitude and quality of the humoral response following vaccination. Results: Compared to immunocompetent controls, a three-fold reduction in anti-S IgG titers (P=0.009) and SARS-CoV-2 neutralization (p<0.0001) were observed in CID patients. B cell depletion and glucocorticoids exerted the strongest effect with a 36- and 10-fold reduction in humoral responses, respectively (p<0.0001). Janus kinase inhibitors and antimetabolites, including methotrexate, also blunted antibody titers in multivariate regression analysis (P<0.0001, P=0.0023, respectively). Other targeted therapies, such as TNF inhibitors, IL-12/23 inhibitors, and integrin inhibitors, had only modest impacts on antibody formation and neutralization. Conclusions: CID patients treated with immunosuppressive therapies exhibit impaired SARS-CoV-2 vaccine-induced immunity, with glucocorticoids and B cell depletion therapy more severely impeding optimal responses.

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Mice with beta cell overexpression of glycogen synthase kinase-3β have reduced beta cell mass and proliferation

Liu

Tanabe

Bernal-Mizrachi

et al. 2008

Diabetologia

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Aims/hypothesis Glycogen synthase kinase-3 (GSK3) has been implicated in the pathophysiology of several prevalent diseases, including diabetes. However, despite recent progress in our understanding of the role of GSK3 in the regulation of glucose metabolism in peripheral tissues, the involvement of GSK3 in islet beta cell growth and function in vivo is unknown. We therefore sought to determine whether over-activation of GSK3β would lead to alterations in islet beta cell mass and/or function. Methods Transgenic mice overexpressing a constitutively active form of human GSK3β (S9A) under the control of the rat insulin promoter (RIP-GSK3βCA) were created. Studies using mouse insulinoma cells (MIN6) were conducted to investigate the regulation of GSK3β activity and its impact on pancreas/duodenum homeobox protein-1 (PDX-1) levels. Results We demonstrated that phosphorylation of GSK3β was decreased, indicating increased GSK3β activity in two animal models of diabetes, Lepr −/− mice and Ins2Akita/+ mice. In MIN6 cells, the activity of GSK3β was regulated by glucose, in a fashion largely dependent on phosphatidylinositol 3-kinase. RIP-GSK3βCA transgenic mice showed impaired glucose tolerance after 5 months of age. Histological studies revealed that transgenic mice had decreased beta cell mass and decreased beta cell proliferation, with a 50% decrease (p<0.05) in the level of PDX-1. Conclusions/interpretationWe showed direct evidence that GSK3β activity is associated with beta cell failure in diabetic mouse models and that its overactivation resulted in decreased pancreatic beta cell proliferation and mass. GSK3 modulates PDX-1 stability in both cultured insulinoma cells and islets in vivo. These results may ultimately facilitate the development of potential therapeutic interventions targeting type 2 diabetes and/or islet transplantation.

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A public vaccine-induced human antibody protects against SARS-CoV-2 and emerging variants

Schmitz¹,

Turner²,

Liu

et al. 2021

Preprint

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The emergence of antigenically distinct severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) variants with increased transmissibility is a public health threat. Some of these variants show substantial resistance to neutralization by SARS-CoV-2 infection- or vaccination-induced antibodies, which principally target the receptor binding domain (RBD) on the virus spike glycoprotein. Here, we describe 2C08, a SARS-CoV-2 mRNA vaccine-induced germinal center B cell-derived human monoclonal antibody that binds to the receptor binding motif within the RBD. 2C08 broadly neutralizes SARS-CoV-2 variants with remarkable potency and reduces lung inflammation, viral load, and morbidity in hamsters challenged with either an ancestral SARS-CoV-2 strain or a recent variant of concern. Clonal analysis identified 2C08-like public clonotypes among B cell clones responding to SARS-CoV-2 infection or vaccination in at least 20 out of 78 individuals. Thus, 2C08-like antibodies can be readily induced by SARS-CoV-2 vaccines and mitigate resistance by circulating variants of concern.

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Modular organization of the multipartite central pattern generator for turtle rostral scratch: knee-related interneurons during deletions

Stein

Daniels-McQueen

Lai

et al. 2016

Journal of Neurophysiology

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Central pattern generators (CPGs) are neuronal networks in the spinal cord that generate rhythmic patterns of motor activity in the absence of movement-related sensory feedback. For many vertebrate rhythmic behaviors, CPGs generate normal patterns of motor neuron activities as well as variations of the normal patterns, termed deletions, in which bursts in one or more motor nerves are absent from one or more cycles of the rhythm. Prior work with hip-extensor deletions during turtle rostral scratch supports hypotheses of hip-extensor interneurons in a hip-extensor module and of hip-flexor interneurons in a hip-flexor module. We present here single-unit interneuronal recording data that support hypotheses of knee-extensor interneurons in a knee-extensor module and of knee-flexor interneurons in a knee-flexor module. Members of knee-related modules are not members of hip-related modules and vice versa. These results in turtle provide experimental support at the single-unit interneuronal level for the organizational concept that the rostral-scratch CPG for the turtle hindlimb is multipartite, that is, composed of more than two modules. This work, when combined with experimental and computational work in other vertebrates, does not support the classical view that the vertebrate limb CPG is bipartite with only two modules, one controlling all the flexors of the limb and the other controlling all the extensors of the limb. Instead, these results support the general principle that spinal CPGs are multipartite.

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Extracorporeal Photophoresis Promotes Alveolar Macrophage Production of Anti-fibrogenic Mediators and Prevents Airway Obliteration in a Mouse Lung Allograft Model

Liu

Furuya

Ibrahim

et al. 2018

The Journal of Heart and Lung Transplantation

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Z. Liu

Glucocorticoids and B Cell Depleting Agents Substantially Impair Immunogenicity of mRNA Vaccines to SARS-CoV-2

Mice with beta cell overexpression of glycogen synthase kinase-3β have reduced beta cell mass and proliferation

A public vaccine-induced human antibody protects against SARS-CoV-2 and emerging variants

Modular organization of the multipartite central pattern generator for turtle rostral scratch: knee-related interneurons during deletions

Extracorporeal Photophoresis Promotes Alveolar Macrophage Production of Anti-fibrogenic Mediators and Prevents Airway Obliteration in a Mouse Lung Allograft Model

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