Your search keyword '"Galeano, Belinda K."' showing total 8 results

1. Rigid crosslinking of the CD3 complex leads to superior T cell stimulation.

Author

Nelson, Alfreda D., Liangyu Wang, Laffey, Kimberly G., Becher, Laura R. E., Parks, Christopher A., Hoffmann, Michele M., Galeano, Belinda K., Mangalam, Ashutosh, Teixeiro, Emma, White, Tommi A., Schrum, Adam G., Cannon, John F., and Gil, Diana

Subjects

T cell receptors, MOLECULAR structure, T cells, CELL physiology, CELL membranes

Abstract

Functionally bivalent non-covalent Fab dimers (Bi-Fabs) specific for the TCR/CD3 complex promote CD3 signaling on T cells. While comparing functional responses to stimulation with Bi-Fab, F(ab')2 or mAb specific for the same CD3 epitope, we observed fratricide requiring anti-CD3 bridging of adjacent T cells. Surprisingly, anti-CD3 Bi-Fab ranked first in fratricide potency, followed by anti-CD3 F(ab')2 and anti-CD3 mAb. Low resolution structural studies revealed anti-CD3 Bi-Fabs and F(ab')2 adopt similar global shapes with CD3-binding sites oriented outward. However, under molecular dynamic simulations, anti-CD3 Bi-Fabs crosslinked CD3 more rigidly than F(ab')2. Furthermore, molecular modelling of Bi-Fab and F(ab')2 binding to CD3 predicted crosslinking of T cell antigen receptors located in opposing plasma membrane domains, a feature fitting with T cell fratricide observed. Thus, increasing rigidity of Fab-CD3 crosslinking between opposing effector-target pairs may result in stronger T cell effector function. These findings could guide improving clinical performance of bi-specific anti-CD3 drugs. [ABSTRACT FROM AUTHOR]

Published

2024

2. Immunophenotypic and molecular analysis of a B cell lymphoma with discordant light chain expression at different anatomic sites

Author

Galeano, Belinda K., Johnson, Laura J., Holden, Jaclyn, Davis, Brooke M., Jain, Tania, Conley, Christopher R., and Kelemen, Katalin

Published

2020

3. Immunophenotypic and molecular analysis of a B cell lymphoma with discordant light chain expression at different anatomic sites

Author

Galeano, Belinda K., Johnson, Laura J., Holden, Jaclyn, Davis, Brooke M., Jain, Tania, Conley, Christopher R., and Kelemen, Katalin

Abstract

B cell lymphomas with discordant immunoglobulin light chain expression in the same patient are rare. We report a case of a 75-year-old woman with a high-grade B cell lymphoma with MYC and BCL2 rearrangements (HGBCL) with discordant immunoglobulin light chain restriction between a lymph node and a pleural fluid involved by lymphoma. Cytogenetic studies by FISH showed MYC and BCL2 rearrangement in both specimens. Immunoglobulin heavy chain and kappa light chain analysis demonstrated similar rearranged clonal peaks in the two specimens. A review of the literature revealed eight cases of B cell lymphoma with discordant immunoglobulin light chain expression (including our case). The light chain discrepancy occurred during a relapse in five cases, whereas in three other cases, the discrepancy was concomitant and present at the time of initial diagnosis. In most cases with relapse, the kappa light chain restriction preceded lambda light chain restriction. The B cell neoplasms with discrepant light chain expression showed similar histomorphologic features in four cases, whereas four cases were dissimilar (B cell lymphoma and plasmacytoma, follicular lymphoma and HGBCL, and two cases involving chronic lymphocytic leukemia and DLBCL). Immunoglobulin gene PCR and comparative sequencing confirmed the clonal relatedness of these lymphomas in 3 of the 8 cases. We conclude that flow cytometric evaluation has an important role in identifying B cell lymphomas with discordant light chain expression. Cytogenetic and molecular studies are essential to investigate the relationship between the two lymphomas in order to rule out independent lymphomas in the same patient and, ultimately, guide therapy.

Published

2024

4. Etiologies and Clinical Outcomes of Patients With Secondary Hemophagocytic Lymphohistiocytosis at a Tertiary PICU

Author

Dao, Dyda, Xoay, Tran D., Galeano, Belinda K., Phuc, Phan H., and Ouellette, Yves

Published

2019

5. Defining the Architecture of the Core Machinery for the Assembly of Fe–S Clusters in Human Mitochondria

Author

Gakh, Oleksandr, primary, Ranatunga, Wasantha, additional, Galeano, Belinda K., additional, Smith, Douglas S., additional, Thompson, James R., additional, and Isaya, Grazia, additional

Published

2017

6. Renal neoplasia with papillary architecture involving the pelvicalyceal system

Author

Gupta, Sounak, primary, Cheville, John C., additional, Galeano, Belinda K., additional, Sukov, William R., additional, Herrera-Hernandez, Loren, additional, Reed, Katelyn A., additional, Lohse, Christine M., additional, Thompson, R.Houston, additional, Boorjian, Stephen A., additional, Leibovich, Bradley C., additional, and Jimenez, Rafael E., additional

Published

2021

7. Architecture of the Yeast Mitochondrial Iron-Sulfur Cluster Assembly Machinery

Author

Ranatunga, Wasantha, primary, Gakh, Oleksandr, additional, Galeano, Belinda K., additional, Smith, Douglas Y., additional, Söderberg, Christopher A.G., additional, Al-Karadaghi, Salam, additional, Thompson, James R., additional, and Isaya, Grazia, additional

Published

2016

8. Defining the Architecture of the Core Machinery for the Assembly of Fe-S Clusters in Human Mitochondria.

Author

Gakh O, Ranatunga W, Galeano BK, Smith DS 4th, Thompson JR, and Isaya G

Subjects

Carbon-Sulfur Lyases chemistry, Carbon-Sulfur Lyases metabolism, Escherichia coli metabolism, Humans, Iron toxicity, Iron-Binding Proteins chemistry, Iron-Binding Proteins metabolism, Iron-Regulatory Proteins chemistry, Iron-Regulatory Proteins metabolism, Iron-Sulfur Proteins chemistry, Mitochondrial Proteins chemistry, Models, Molecular, Multiprotein Complexes chemistry, Multiprotein Complexes metabolism, Protein Binding, Recombinant Proteins chemistry, Recombinant Proteins metabolism, Sulfur toxicity, Frataxin, Iron chemistry, Iron-Sulfur Proteins metabolism, Mitochondria metabolism, Mitochondrial Proteins metabolism, Sulfur chemistry

Abstract

Although Fe-S clusters may assemble spontaneously from elemental iron and sulfur in protein-free systems, the potential toxicity of free Fe 2+ , Fe 3+ , and S 2- ions in aerobic environments underscores the requirement for specialized proteins to oversee the safe assembly of Fe-S clusters in living cells. Prokaryotes first developed multiprotein systems for Fe-S cluster assembly, from which mitochondria later derived their own system and became the main Fe-S cluster suppliers for eukaryotic cells. Early studies in yeast and human mitochondria indicated that Fe-S cluster assembly in eukaryotes is centered around highly conserved Fe-S proteins (human ISCU) that serve as scaffolds upon which new Fe-S clusters are assembled from (i) elemental sulfur, provided by a pyridoxal phosphate-dependent cysteine desulfurase (human NFS1) and its stabilizing-binding partner (human ISD11), and (ii) elemental iron, provided by an iron-binding protein of the frataxin family (human FXN). Further studies revealed that all of these proteins could form stable complexes that could reach molecular masses of megadaltons. However, the protein-protein interaction surfaces, catalytic mechanisms, and overall architecture of these macromolecular machines remained undefined for quite some time. The delay was due to difficulties inherent in reconstituting these very large multiprotein complexes in vitro or isolating them from cells in sufficient quantities to enable biochemical and structural studies. Here, we describe approaches we developed to reconstitute the human Fe-S cluster assembly machinery in Escherichia coli and to define its remarkable architecture., (© 2017 Elsevier Inc. All rights reserved.)

Published

2017