Publications by authors named "Brian Soper"

Background: Humanized mice transplanted with CD34 hematopoietic cells (HPCs) are broadly used to study human immune responses and infections in vivo and for testing therapies pre-clinically. However, until now, it was not clear whether interactions between the mouse major histocompatibility complexes (MHCs) and/or the human leukocyte antigens (HLAs) were necessary for human T-cell development and immune reactivity.

Methods: We evaluated the long-term (20-week) human hematopoiesis and human T-cell development in NOD Scid Gamma (NSG) mice lacking the expression of MHC class I and II (NSG-DKO).

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Cancer is the leading cause of death worldwide. Cancer immunotherapy involves reinvigorating the patient's own immune system to fight against cancer. While novel approaches like Chimeric Antigen Receptor (CAR) T cells, bispecific T cell engagers, and immune checkpoint inhibitors have shown promising efficacy, Cytokine Release Syndrome (CRS) is a serious adverse effect and remains a major concern.

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Mice xenotransplanted with human cells and/or expressing human gene products (also known as "humanized mice") recapitulate the human evolutionary specialization and diversity of genotypic and phenotypic traits. These models can provide a relevant in vivo context for understanding of human-specific physiology and pathologies. Humanized mice have advanced toward mainstream preclinical models and are now at the forefront of biomedical research.

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Non-invasive event-related potential (ERP) recordings have become a popular technique to study neural activity associated with saccades in humans. To date, it is not known whether nonhuman primates exhibit similar saccade-related ERPs. Here, we recorded ERPs associated with the performance of randomly interleaved pro- and anti-saccades in macaque monkeys.

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The major histocompatibility complex (MHC) of the type 1 diabetes-prone NOD mouse lacks a functional class II H2-Ea gene such that antigen presenting cells (APCs) are I-E null. Transgenic expression of Ea in NOD mice both restores I-E expression and confers complete protection from diabetes progression. Non-myeloablative neonatal transplantation of bone marrow cells from such I-E+ transgenic donors into NOD recipients resulted in low-level but long-term haematopoietic stem cell (HSC) engraftment.

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Treatment of nonmalignant childhood disorders by bone marrow transplantation (BMT) is limited by toxicity from preparatory regimens and immune consequences associated with engraftment of allogeneic donor cells. Using costimulatory blockade (anti-CD40L mAb and CTLA-4Ig) combined with high-dose BMT in nonablated neonates, we obtained engraftment and established tolerance using both partially MHC mismatched (H2g7 into H2b) and fully mismatched BM (H2s into H2b). Recipients were mucopolysaccharidosis type VII (MPS VII) mice with lysosomal storage disease in order to assess therapeutic outcome.

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Lysosomal storage diseases (LSDs), due to deficiency of a lysosomal enzyme, are inherited, progressive disorders that are often fatal during childhood. The mucopolysaccharidoses (MPS) are LSDs caused by deficiency of a lysosomal enzyme needed for the stepwise degradation of glycosaminoglycans. A murine model of MPS VII shares many clinical, biochemical, and pathologic features with human MPS and has proved valuable for the study of the pathophysiology of MPS and for evaluation of therapies for LSDs.

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Protein kinase C (PKC) activation and increases in cytosolic Ca(2+) cause intestinal injury. Since PKC activation can alter Ca(2+) homeostasis and increase Ca(2+) levels, we examined the effects of PKC activation on intestinal cellular integrity and the role of Ca(2+) signaling in this response. The epithelial cell line, IEC-18 was incubated with the PKC activator phorbol myristate acetate (PMA; 0.

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Lysosomal storage diseases (LSD) respond to bone marrow (BM) transplantation when donor-derived cells deliver needed enzyme. Hypothetically, the ubiquitous resident macrophages (MPhi) are the primary delivery vehicle of therapeutic protein. In mucopolysaccharidosis type VII (MPS VII) mice with LSD, transplanted mature MPhi reduce undegraded glycosaminoglycans (GAG) in the lysosome but are incapable of self-renewal, leading to return of storage after 1 month.

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To block development of progressive childhood diseases, in utero transplantation (IUTx) requires immediate and significant donor peripheral blood (PB) cell amplification. To date, negligible and nontherapeutic donor PB cell levels have been observed postnatally, except in patients with immunodeficiency diseases. Donor cell fate in utero still is not clear.

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Previous studies have determined that, in response to bacterial endotoxin, the colonic mucosa of the 10-d-old neonatal rat was more susceptible to injury than was the colon of the 25-d-old mature animal. Furthermore, it is known that certain isoforms of protein kinase C (PKC), specifically PKCdelta and PKCepsilon, mediate intestinal inflammatory responses to specific challenges. Therefore, in the present study, we have examined the association between the activation of these PKC isoforms and the enhanced susceptibility to hypoxia-induced challenge.

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A significant number of nonmalignant, progressive childhood disorders respond to bone marrow transplantation (BMT). Toxic myeloablative pretreatment regimens, graft failure, and graft-vs-host disease complicate the utility of BMT for neonatal treatment. We recently demonstrated high-dose BMT in neonatal animals enables chimeric engraftment without toxic myeloablation.

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Objective: The goal of this study was to determine if competitive pressure was placed on hematopoietic stem cells (HSC) by a coinjected "carrier" population that maintains short-term survival of the host. Our hypothesis was that delayed introduction of "carrier" cells would increase engraftment of donor HSC.

Materials And Methods: Competitive repopulation assays were performed using genetically distinguishable whole bone marrow (BM) populations.

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