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9 results on '"Jacob Stauber"'

1. Snapshots of nascent RNA reveal cell- and stimulus-specific responses to acute kidney injury

Author

Tian Huai Shen, Jacob Stauber, Katherine Xu, Alexandra Jacunski, Neal Paragas, Miriam Callahan, Run Banlengchit, Abraham D. Levitman, Beatriz Desanti De Oliveira, Andrew Beenken, Madeleine S. Grau, Edwin Mathieu, Qingyin Zhang, Yuanji Li, Tejashree Gopal, Nathaniel Askanase, Siddarth Arumugam, Sumit Mohan, Pamela I. Good, Jacob S. Stevens, Fangming Lin, Samuel K. Sia, Chyuan-Sheng Lin, Vivette D’Agati, Krzysztof Kiryluk, Nicholas P. Tatonetti, and Jonathan Barasch

Subjects
Nephrology, Medicine
Abstract

The current strategy to detect acute injury of kidney tubular cells relies on changes in serum levels of creatinine. Yet serum creatinine (sCr) is a marker of both functional and pathological processes and does not adequately assay tubular injury. In addition, sCr may require days to reach diagnostic thresholds, yet tubular cells respond with programs of damage and repair within minutes or hours. To detect acute responses to clinically relevant stimuli, we created mice expressing Rosa26-floxed-stop uracil phosphoribosyltransferase (Uprt) and inoculated 4-thiouracil (4-TU) to tag nascent RNA at selected time points. Cre-driven 4-TU–tagged RNA was isolated from intact kidneys and demonstrated that volume depletion and ischemia induced different genetic programs in collecting ducts and intercalated cells. Even lineage-related cell types expressed different genes in response to the 2 stressors. TU tagging also demonstrated the transient nature of the responses. Because we placed Uprt in the ubiquitously active Rosa26 locus, nascent RNAs from many cell types can be tagged in vivo and their roles interrogated under various conditions. In short, 4-TU labeling identifies stimulus-specific, cell-specific, and time-dependent acute responses that are otherwise difficult to detect with other technologies and are entirely obscured when sCr is the sole metric of kidney damage.

Published
2022
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2. Disposal of iron by a mutant form of lipocalin 2

Author

Jonathan Barasch, Maria Hollmen, Rong Deng, Eldad A. Hod, Peter B. Rupert, Rebecca J. Abergel, Benjamin E. Allred, Katherine Xu, Shaun F. Darrah, Yared Tekabe, Alan Perlstein, Rebecca Wax, Efrat Bruck, Jacob Stauber, Kaitlyn A. Corbin, Charles Buchen, Vesna Slavkovich, Joseph Graziano, Steven L. Spitalnik, Guanhu Bao, Roland K. Strong, and Andong Qiu

Subjects
Science
Abstract

Iron overload can be either hereditary or acquired via transfusions, and current treatments include the use of iron chelators that have adverse effects in some patients. Here the authors modify siderocalin to enhance iron excretion in urine, and demonstrate therapeutic efficacy in iron overload mouse models.

Published
2016
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3. Molecular Characterization of Adult Acute Lymphoblastic Leukemia Identifies a Subgroup with Myeloid Mutations and Pre-Existing Clonal Hematopoiesis

Author

Caner Saygin, Jacob Stauber, Ibrahim Aldoss, Adam S. Sperling, Lachelle D. Weeks, Marlise R. Luskin, Todd C. Knepper, Pankhuri Wanjari, Peng Wang, Angela Lager, Jeremy Segal, Benjamin Kaumeyer, Sandeep Gurbuxani, Girish Venkataraman, Jason Xiaojun Cheng, Bartholomew Eisfelder, Oliver Bohorquez, Anand Ashwin Patel, Olatoyosi Odenike, Richard A. Larson, Lucy A. Godley, Daniel A. Arber, Benjamin L. Ebert, John M. Greally, Ulrich G. Steidl, Bijal D. Shah, and Wendy Stock

Subjects
Immunology, Cell Biology, Hematology, Biochemistry
Published
2022

6. Preleukemic and leukemic evolution at the stem cell level

Author

Jacob Stauber, Ulrich Steidl, and John M. Greally

Subjects
0301 basic medicine, Carcinogenesis, Immunology, Cell, Population, Biology, Blood Spotlight, Biochemistry, Somatic evolution in cancer, Clonal Evolution, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Humans, education, education.field_of_study, Leukemia, Disease progression, Hematopoietic stem cell, Cell Biology, Hematology, Hematopoietic Stem Cells, Phenotype, 030104 developmental biology, medicine.anatomical_structure, Evolutionary biology, 030220 oncology & carcinogenesis, Disease Progression, Neoplastic Stem Cells, Stem cell
Abstract

Hematological malignancies are an aggregate of diverse populations of cells that arise following a complex process of clonal evolution and selection. Recent approaches have facilitated the study of clonal populations and their evolution over time across multiple phenotypic cell populations. In this review, we present current concepts on the role of clonal evolution in leukemic initiation, disease progression, and relapse. We highlight recent advances and unanswered questions about the contribution of the hematopoietic stem cell population to these processes.

Published
2020

8. Unique Transcriptional Programs Identify Subtypes of AKI

Author

Christian Hinze, Kai M. Schmidt-Ott, Efrat Bruck, Madison Jones, Paul E. Rosenstiel, Jonathan Barasch, Subodh J. Saggi, Juan A. Oliver, Justin Konig, Rong Deng, Tian Huai Shen, Tejashree S. Gopal, Max Werth, Hediye Erdjument-Bromage, Catherine S. Forster, Paolo Guarnieri, Nicholas P. Tatonetti, Roger W. Boles, Neal Paragas, Alexandra Tornato, Paul Tempst, Vivette D. D'Agati, Jacob Stauber, Xiaobo Gao, Katherine Xu, and Gebhard Wagener

Subjects
0301 basic medicine, medicine.medical_specialty, Gene Expression, Biology, urologic and male genital diseases, Article, Pathogenesis, Mice, 03 medical and health sciences, chemistry.chemical_compound, Internal medicine, Gene expression, medicine, Animals, Humans, Laser capture microdissection, Creatinine, Kidney, urogenital system, Acute kidney injury, General Medicine, Acute Kidney Injury, medicine.disease, Mice, Inbred C57BL, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, chemistry, Nephrology, Excretory system, Female, Signal transduction, Transcriptome
Abstract

Two metrics, a rise in serum creatinine concentration and a decrease in urine output, are considered tantamount to the injury of the kidney tubule and the epithelial cells thereof (AKI). Yet neither criterion emphasizes the etiology or the pathogenetic heterogeneity of acute decreases in kidney excretory function. In fact, whether decreased excretory function due to contraction of the extracellular fluid volume (vAKI) or due to intrinsic kidney injury (iAKI) actually share pathogenesis and should be aggregated in the same diagnostic group remains an open question. To examine this possibility, we created mouse models of iAKI and vAKI that induced a similar increase in serum creatinine concentration. Using laser microdissection to isolate specific domains of the kidney, followed by RNA sequencing, we found that thousands of genes responded specifically to iAKI or to vAKI, but very few responded to both stimuli. In fact, the activated gene sets comprised different, functionally unrelated signal transduction pathways and were expressed in different regions of the kidney. Moreover, we identified distinctive gene expression patterns in human urine as potential biomarkers of either iAKI or vAKI, but not both. Hence, iAKI and vAKI are biologically unrelated, suggesting that molecular analysis should clarify our current definitions of acute changes in kidney excretory function.

Published
2016

9. Disposal of iron by a mutant form of lipocalin 2

Author

Rong Deng, Rebecca Wax, Jacob Stauber, Shaun F. Darrah, Jonathan Barasch, Roland K. Strong, Peter B. Rupert, Joseph H. Graziano, Andong Qiu, Steven L. Spitalnik, Benjamin E. Allred, Alan Perlstein, Efrat Bruck, Yared Tekabe, Charles Buchen, Guan-Hu Bao, Katherine Xu, Rebecca J. Abergel, Kaitlyn A. Corbin, Maria Hollmen, Vesna Slavkovich, and Eldad A. Hod

Subjects
0301 basic medicine, Siderophore, Iron Overload, Kidney Disease, Science, Iron, Mutant, Siderophores, General Physics and Astronomy, Mice, Transgenic, Endogeny, Lipocalin, Kidney, Iron Chelating Agents, Ligands, Article, Transgenic, General Biochemistry, Genetics and Molecular Biology, Mice, 03 medical and health sciences, Lipocalin-2, medicine, Animals, Humans, Inflammation, chemistry.chemical_classification, Multidisciplinary, Animal, Chemistry, Prevention, Transferrin, Kidney metabolism, General Chemistry, 3. Good health, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Biochemistry, Disease Models, Mutation, Oxidation-Reduction, Protein Binding
Abstract

Iron overload damages many organs. Unfortunately, therapeutic iron chelators also have undesired toxicity and may deliver iron to microbes. Here we show that a mutant form (K3Cys) of endogenous lipocalin 2 (LCN2) is filtered by the kidney but can bypass sites of megalin-dependent recapture, resulting in urinary excretion. Because K3Cys maintains recognition of its cognate ligand, the iron siderophore enterochelin, this protein can capture and transport iron even in the acidic conditions of urine. Mutant LCN2 strips iron from transferrin and citrate, and delivers it into the urine. In addition, it removes iron from iron overloaded mice, including models of acquired (iron-dextran or stored red blood cells) and primary (Hfe−/−) iron overload. In each case, the mutants reduce redox activity typical of non-transferrin-bound iron. In summary, we present a non-toxic strategy for iron chelation and urinary elimination, based on manipulating an endogenous protein:siderophore:iron clearance pathway., Iron overload can be either hereditary or acquired via transfusions, and current treatments include the use of iron chelators that have adverse effects in some patients. Here the authors modify siderocalin to enhance iron excretion in urine, and demonstrate therapeutic efficacy in iron overload mouse models.

Published
2016

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