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1. Light-Triggered Drug Release from Red Blood Cells Suppresses Arthritic Inflammation

Author

Song Ding, Rishi R. Rampersad, Qunzhao Wang, Emily M. Rabjohns, David S. Lawrence, Amanda M Eudy, Emilia M. Zywot, Lauren Haar, Joshua G. Welfare, Victoria A. Wickenheisser, Teresa K. Tarrant, and Natalia Orlova

Subjects
Pharmacology, business.industry, Biochemistry (medical), Pharmaceutical Science, Medicine (miscellaneous), Arthritis, Inflammation, medicine.disease, Article, Drug delivery, Drug release, medicine, Pharmacology (medical), medicine.symptom, business, Genetics (clinical), Dexamethasone, medicine.drug
Abstract

Arthritis is a leading cause of disability in adults, which can be intensely incapacitating. The location and intensity of the pain is both subjective and challenging to manage. Consequently, patient-directed delivery of anti-inflammatories is an essential component of future therapeutic strategies for the management of this disorder. We describe the design and application of a light responsive red blood cell (RBC) conveyed dexamethasone (Dex) construct that enables targeted drug delivery upon illumination of the inflamed site. The red wavelength (650 nm) responsive nature of the phototherapeutic was validated using tissue phantoms mimicking the light absorbing properties of various skin types. Furthermore, photoreleased Dex has the same impact on cellular responses as conventional Dex. Murine RBCs containing the photoactivatable therapeutic display comparable circulation properties as fluorescently labelled RBCs. In addition, a single dose of light-targeted Dex delivery is 5-fold more effective in suppressing inflammation than the parent drug, delivered serially over multiple days. These results are consistent with the notion that the circulatory system be used as an on-command drug depot, providing the means to therapeutically target diseased sites both efficiently and effectively.

Published
2021

2. Abstract MP219: Hnrnpa2b1-dependent Selective Sorting Of Mir-486a-5p Into Msc-derived Exosomes Contributes To Cardioprotection

Author

Ahn Phan, Keith W Jones, Lauren Haar, Thomas Lynch, and Chongyu Zhang

Subjects
Cardioprotection, Physiology, Chemistry, Sorting, macromolecular substances, Cardiology and Cardiovascular Medicine, Microvesicles, Cell biology
Abstract

Exosomes (Exo) are a class of extracellular vesicles and involvement of stem cell-derived Exo in cardiac repair and cardioprotection is thought to be an important in the heart. Our HYPOTHESIS Is that specific microRNAs (miRs) from mesenchymal stem cell (MSC)-derived exosomes are actively and selectively sorted into Exo by RNA binding proteins and motifs on the miR, to serve specific functions of the Exo, including Cardioprotection. Methods: We characterized the miR populations of parental MSCs and their Exo via RNA Seq and confirmed by QRT-PCR the subpopulation of miRs that is increased in Exo vs . MSC cells. We then used Multiple Em for Motif Elicitation (MEME) Version 5.3.3 and determined the predicted conserved motifs. From these, we predicted RNA binding protein sites from the literature. In parallel, we performed mass spectrometry and western blot analyses to determine RNA binding proteins in MSC and Exo. Predicting that hnRNPA2B1 was a likely RNA binding protein for the new motif, we knocked out the cognate gene (CRISPR) in MSC and evaluated the KO Exo vs. the WT Exo by RNA Seq and QRT-PCR. We performed protein and RNA pulldowns, and EMSA to validate binding of hnRNPA2B1 to several of the miRs, and investigated the effects of these miRs on cell survival after simIR and in an in vivo mouse model of MI. Results: We found a set of eight miRs that are selectively concentrated in the MSC Exo. MEME software predicted a conserved binding motif of gAGu, which is close to canonical sites for binding of hnRNPA2B1 and hnRNPA1. We determined hnRNPA2B1 was in MSC and Exo and showed KO hnRNPA2B1 cells and Exo had no compensatory perturbation of other RNA binding proteins. The KO MSC Exo show reduction of the selective sorting of the miRs of interest. Pulldowns and binding assay results verify binding of hnRNPA2B1 to both miR-486a-5p and miR-122a. Finally, we showed that miR-486a-5p is protective in H9C2 cells submitted to simIR and results in significant 68% reduction of infarct size (n=7, P=0.0175) in vivo in association with repression of PDCD4 expression and apoptosis. Conclusions: We determined that a set of miRs is selectively concentrated in MSC Exo and demonstrated the necessity of hnRNPA2B1 in that process. This appears to involve a conserved RNA sequence motif (mutational analysis underway). A major miR affected is miR-486a-5p, which is strongly cardioprotective. Our results support that miR-486a-5p is selectively concentrated in MSC Exo and contributes to cardioprotection by reducing PDCD4 activity in apoptosis.

Published
2021

3. Cardioprotection via the skin: nociceptor-induced conditioning against cardiac MI in the NIC of time

Author

Thomas L. Lynch th, Michael Tranter, Jun-Ming Zhang, Wen Rui Xie, Guo-Chang Fan, Min Jiang, Neal L. Weintraub, Ahmad Anjak, Yang Wang, W. Keith Jones, Michelle Huan Ren, Sheryl E. Koch, Xiaoping Ren, Yong Lui, Jack Rubinstein, Qing Miao, Evangelia G. Kranias, Faryal Mallick, Albert Cohen, Anne Roessler, and Lauren Haar

Subjects
Male, Nociception, 0301 basic medicine, Cardiotonic Agents, Receptor, Bradykinin B2, Sensory Receptor Cells, Physiology, Myocardial Infarction, Sensory system, Remote conditioning, 030204 cardiovascular system & hematology, Stimulus (physiology), Mice, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), Reflex, medicine, Animals, Peripheral Nerves, Myocardial infarction, Protein Kinase C, Skin, Cardioprotection, business.industry, medicine.disease, Mice, Inbred C57BL, 030104 developmental biology, Sensory System Agents, Nociceptor, Conditioning, Female, Capsaicin, Cardiology and Cardiovascular Medicine, business, Neuroscience, Cardiac/MI, Research Article
Abstract

Timely reperfusion is still the most effective approach to limit infarct size in humans. Yet, despite advances in care and reduction in door-to-balloon times, nearly 25% of patients develop heart failure postmyocardial infarction, with its attendant morbidity and mortality. We previously showed that cardioprotection results from a skin incision through the umbilicus in a murine model of myocardial infarction. In the present study, we show that an electrical stimulus or topical capsaicin applied to the skin in the same region induces significantly reduced infarct size in a murine model. We define this class of phenomena as nociceptor-induced conditioning (NIC) based on the peripheral nerve mechanism of initiation. We show that NIC is effective both as a preconditioning and postconditioning remote stimulus, reducing infarct size by 86% and 80%, respectively. NIC is induced via activation of skin C-fiber nerves. Interestingly, the skin region that activates NIC is limited to the anterior of the T9−T10 vertebral region of the abdomen. Cardioprotection after NIC requires the integrity of the spinal cord from the region of stimulation to the thoracic vertebral region of the origin of the cardiac nerves but does not require that the cord be intact in the cervical region. Thus, we show that NIC is a reflex and not a central nervous system-mediated effect. The mechanism involves bradykinin 2 receptor activity and activation of PKC, specifically, PKC-α. The similarity of the neuroanatomy and conservation of the effectors of cardioprotection supports that NIC may be translatable to humans as a nontraumatic and practical adjunct therapy against ischemic disease. NEW & NOTEWORTHY This study shows that an electrical stimulus to skin sensory nerves elicits a very powerful cardioprotection against myocardial infarction. This stimulus works by a neurogenic mechanism similar to that previously elucidated for remote cardioprotection of trauma. Nociceptor-induced conditioning is equally potent when applied before ischemia or at reperfusion and has great potential clinically.

Published
2019

4. Optogenetic perturbation of the biochemical pathways that control cell behavior

Author

David S. Lawrence, Lauren Haar, and Robert M. Hughes

Subjects
0303 health sciences, Chemistry, Kinase, 030303 biophysics, Apoptosis, Cofilin, Optogenetics, Cyclic AMP-Dependent Protein Kinases, Article, Cell Line, Cell biology, 03 medical and health sciences, HEK293 Cells, Cryptochrome, Cell Movement, Animals, Humans, Signal transduction, Cytoskeleton, Protein kinase A, Intracellular, Signal Transduction
Abstract

Optogenetic tools provide a level of spatial and temporal resolution needed to shed new light on dynamic intercellular processes. In this chapter we outline specific protocols for applying these tools to cell motility (optogenetic cofilin), apoptosis [optogenetic Bcl-like protein 4 (Bax)], and protein kinase-mediated signaling pathways [optogenetic cAMP-dependent protein kinase (PKA)]. The activity of these optogenetic species is regulated by the light-mediated dimerization of a cryptochrome/Cib protein pair, which controls the intracellular positioning of the protein of interest. The light induced recruitment of cofilin to the cytoskeleton is utilized for directed migration studies and filopodial dynamics. Light-triggered migration of Bax to the outer mitochondrial membrane induces cellular collapse and eventual apoptosis. Finally, the light-mediated movement of PKA to specific intracellular compartments offers the means to assess the consequences of PKA activity in a site-specific fashion via phosphoproteomic analysis.

Published
2019

5. Activation of hERG3 channel stimulates autophagy and promotes cellular senescence in melanoma

Author

Katherine Lansu, Basabi Rana, Mathew Perez-Neut, Lauren Haar, WK Jones, Saverio Gentile, Sreevidya Santha, and Vidhya R. Rao

Subjects
0301 basic medicine, Senescence, autophagy, senescence, Cellular homeostasis, Biology, 03 medical and health sciences, 0302 clinical medicine, Cell Line, Tumor, melanoma, Humans, hERG, Cellular Senescence, Activator (genetics), Cell growth, Autophagy, AMPK, potassium channels, Ether-A-Go-Go Potassium Channels, 3. Good health, Cell biology, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Cancer cell, Signal transduction, Research Paper
Abstract

Ion channels play a major factor in maintaining cellular homeostasis but very little is known about the role of these proteins in cancer biology. In this work we have discovered that, the Kv11.3 (hERG3) a plasma-membrane potassium channel plays a critical role in the regulation of autophagy in a cancer cell model. We have found that pharmacologic stimulation of the Kv11.3 channel with a small molecule activator, NS1643 induced autophagy via activation of an AMPK-dependent signaling pathway in melanoma cell line. In addition, we have found that NS1643 produced a strong inhibition of cell proliferation by activating a cellular senescence program. Furthermore, inhibition of autophagy via siRNA targeting AMPK or treatment with hydroxychloroquine an autophagy inhibitor activates apoptosis in NS1643-treated cells. Thus, we propose that, Kv11.3 is a novel mediator of autophagy, autophagy can be a survival mechanism contributing to cellular senescence, and that use of a combinatorial pharmacologic approach of Kv11.3 activator with inhibitors of autophagy represents a novel therapeutic approach against melanoma.

Published
2016

7. Compartmentalized cAMP Generation by Engineered Photoactivated Adenylyl Cyclases

Author

Brianna M. Vickerman, David S. Lawrence, Colin P. O'Banion, and Lauren Haar

Subjects
Protein subunit, Clinical Biochemistry, Biology, Protein Engineering, 01 natural sciences, Biochemistry, Article, Cell Line, Photostimulation, Drug Discovery, Cyclic AMP, medicine, Humans, Nuclear protein, Molecular Biology, Pharmacology, 010405 organic chemistry, Kinase, Phosphodiesterase, Photochemical Processes, 0104 chemical sciences, Cell biology, HEK293 Cells, medicine.anatomical_structure, Second messenger system, Molecular Medicine, Nucleus, Intracellular, Adenylyl Cyclases
Abstract

Because small-molecule activators of adenylyl cyclases (AC) affect ACs cell-wide, it is challenging to explore the signaling consequences of AC activity emanating from specific intracellular compartments. We explored this issue using a series of engineered, optogenetic, spatially restricted, photoactivable adenylyl cyclases (PACs) positioned at the plasma membrane (PM), the outer mitochondrial membrane (OMM), and the nucleus (Nu). The biochemical consequences of brief photostimulation of PAC is primarily limited to the intracellular site occupied by the PAC. By contrast, sustained photostimulation results in distal cAMP signaling. Prolonged cAMP generation at the OMM profoundly stimulates nuclear protein kinase (PKA) activity. We have found that phosphodiesterases 3 (OMM and PM) and 4 (PM) modulate proximal (local) cAMP-triggered activity, whereas phosphodiesterase 4 regulates distal cAMP activity as well as the migration of PKA's catalytic subunit into the nucleus.

Published
2019

8. Neutrophils, Not Monocyte/Macrophages, are the Major Splenic Source of Postburn IL-10

Author

Lauren Haar, Nick Giacalone, Sandy Schwemberger, Cora K. Ogle, Greg Noel, Craig Hanson, and Quan Wang

Subjects
Male, Neutrophils, Receptors, CCR2, Biology, Critical Care and Intensive Care Medicine, Monocytes, law.invention, Mice, law, Polymorphonuclear Neutrophils, Animals, Monocytes macrophages, Myeloid Cells, Mice, Knockout, Tumor Necrosis Factor-alpha, Macrophages, Flow Cytometry, Interleukin-10, Mice, Inbred C57BL, Interleukin 10, Heterogeneous population, Immunology, Emergency Medicine, Suppressor, Burns, Spleen
Abstract

Burn induces myeloid-derived suppressor cells (MDSCs), a heterogeneous population of immature polymorphonuclear neutrophils (PMNs) and monocytes, which protect against infection. Previous work from our laboratory demonstrated that inflammatory monocytes (iMos) were the major MDSC source of TNF-α in the postburn spleen, and we hypothesized that they were also the major source of postburn IL-10. To test this hypothesis, we examined cytokine production by postburn CCR2 knockout (KO) mice, which have fewer iMos than burn wild-type (WT) splenocytes, but equal numbers of PMNs and F4/80 macrophages. Using cell sorting and/or intracellular cytokine techniques, we examined IL-10 production by postburn PMNs and iMos. Finally, we compared IL-10 production by postburn PMNs and iMos with culture-derived MDSCs. Splenocytes from postburn CCR2 KO mice produced less IL-6 and TNF-α than WT burn splenocytes in response to LPS, but KO and WT burn splenocytes produced equal amounts of IL-10 in response to peptidoglycan. Depletion of PMNs from postburn splenocytes led to reductions in IL-10 and increases in IL-6 and TNF-α in response to peptidoglycan, but not in response to LPS. Sorting or intracellular cytokine techniques gave consistent results: Burn PMNs made more IL-10 than sham PMNs and also more IL-10 than burn or sham iMos. Polymorphonuclear neutrophil and iMos subpopulations from culture-derived MDSCs produced the same cytokine profiles in response to LPS and peptidoglycan as did the PMNs and iMos from postburn spleens: PMNs made IL-10, whereas iMos made IL-6. Finally, LPS-induced mortality of burn mice was made worse by anti-Gr-1 depletion of all PMNs and 66% of iMos from burn mice. This suggests that PMNs play a primarily anti-inflammatory role in vitro and in vivo.

Published
2011

9. A Ribonucleotide Reductase Inhibitor Reverses Burn-Induced Inflammatory Defects

Author

Lauren Haar, Ingrid Thomas, Nicholas Giacalone, Cora K. Ogle, Sandy Schwemberger, Andrew R. Osterburg, Laura James, Greg Noel, and Quan Wang

Subjects
Lipopolysaccharides, Male, Lymphocyte, Drug Evaluation, Preclinical, Inflammation, Peptidoglycan, Ribonucleotide reductase inhibitor, Lymphocyte Activation, Nitric Oxide, Critical Care and Intensive Care Medicine, Deoxycytidine, Monocytes, Nitric oxide, Leukocyte Count, Mice, chemistry.chemical_compound, Immune system, T-Lymphocyte Subsets, Ribonucleotide Reductases, Concanavalin A, medicine, Animals, Myeloid Cells, Pseudomonas Infections, Interleukin-6, Tumor Necrosis Factor-alpha, business.industry, Macrophages, Gemcitabine, Interleukin-10, Mice, Inbred C57BL, Haematopoiesis, medicine.anatomical_structure, chemistry, Immunology, Emergency Medicine, Cancer research, Tumor necrosis factor alpha, medicine.symptom, Burns, business, Spleen, medicine.drug
Abstract

Immature myeloid cells have been implicated as a source of postburn inflammation, and the appearance of these cells correlates with enhanced upregulation of hematopoiesis. The role of proliferative cells in postburn immune changes has not been directly tested. Gemcitabine, a ribonucleotide reductase inhibitor, has been shown to deplete proliferative immature myeloid cells in tumor models while sparing mature cells, leading to restored lymphocyte function and tumor regression. We treated burn mice at postburn day 6 (PBD6) with 120 mg/kg gemcitabine. On PBD8, splenocytes were taken and stimulated with LPS, peptidoglycan, or concanavalin A. The blood and spleen cell populations were enumerated by flow cytometry or automated cell counter. In addition, mice treated with gemcitabine were given LPS or infected with Pseudomonas aeruginosa at PBD8, and mortality was monitored. Gemcitabine depleted burn-induced polymorphonuclear leukocytes and inflammatory monocytes without affecting mature F4/80 macrophages. This was accompanied by reduced TNFα, IL-6, and IL-10 production by burn splenocytes. Burn splenocytes stimulated with mitogens exhibited increased nitric oxide production relative to sham mice. In vivo treatment of burn mice with gemcitabine blocked these burn-induced changes without damaging lymphocyte function. Treatment of burn mice with gemcitabine ameliorated burn-induced susceptibility to LPS and infiltration of polymorphonuclear leukocytes into the liver and lung. Finally, gemcitabine treatment blocked the protective effect of burn injury upon P. aeruginosa infection. Our report shows that proliferative cells are major drivers of postburn immune changes and provides evidence that implicates immature myeloid cells in these processes.

Published
2010

10. Adiponectin Modulates NF‐κB Mediated Cardioprotective Pathways after Acute High‐fat Feeding

Author

Jack Rubinstein, WK Jones, Lauren Haar, Kristin Luther, and Xiaoping Ren

Subjects
medicine.medical_specialty, Adiponectin, business.industry, food and beverages, Ischemic injury, NF-κB, Biochemistry, chemistry.chemical_compound, Endocrinology, Fat diet, chemistry, Internal medicine, Genetics, medicine, High fat feeding, business, Molecular Biology, Biotechnology
Abstract

Previous studies indicate that the consumption of a high fat diet (HFD) 24h-2wks prior to the experience of ischemic injury can decrease the size of the infarcted area (normalized to the area at ri...

Published
2015

11. Targeting MicroRNA to Upregulate Cardioprotective Heat Shock Proteins

Author

W. Keith Jones, Faryal Mallick, Lauren Haar, and Kristin Luther

Subjects
business.industry, Ischemia, Stimulus (physiology), medicine.disease, Biochemistry, Cell biology, Downregulation and upregulation, Heat shock protein, parasitic diseases, microRNA, Genetics, Medicine, Ischemic preconditioning, cardiovascular diseases, business, human activities, Molecular Biology, Biotechnology
Abstract

Ischemic preconditioning (IPC) is a protective stimulus whereby the heart undergoes a series of brief, non-lethal bouts of ischemia and reperfusion that protect it from subsequent prolonged ischemi...

Published
2015

12. Current and Potential Antiarrhythmic Drugs Targeting Voltage-Gated Cardiac Ion Channels

Author

Mathew Perez-Neut, Saverio Gentile, Lauren Haar, Keith W Jones, and Vidhya R. Rao

Subjects
Voltage-gated ion channel, business.industry, Cardiac arrhythmia, Cardiac action potential, General Medicine, Pharmacology, Gain of function, Myocyte, Medicine, In patient, Current (fluid), business, Neuroscience, Ion channel
Abstract

Voltage-gated ion channels play a fundamental role in the generation and propagation of the cardiac action potential by acting synergistically to produce an ionic current across cellular membranes. Abnormalities of heart ion channel activities that lead to loss or gain of function (channelopathies) are often associated with disruption of the coordinated propagation of electrical activity of the cardiac myocytes and can generate fatal arrhythmogenesis. Drugs that act on cardiac ion channels have long been used to restore normal rhythm and conduction in patients affected by cardiac arrhythmias and offered to basic scientists the possibility to characterize distinct ion channel classes. This review will explore the mechanisms and role of the current anti-arrhythmic drugs used in the clinic, and discuss recent development on ion channel openers as potential anti-arrhythmic drugs.

Published
2015

13. Acute consumption of a high-fat diet prior to ischemia-reperfusion results in cardioprotection through NF-κB-dependent regulation of autophagic pathways

Author

Michael Tranter, Lauren Haar, Melinda A. Engevik, W. Keith Jones, Yong Liu, Michelle L. Nieman, Jack Rubinstein, Jillian Goines, Sheryl E. Koch, and Xiaoping Ren

Subjects
Cardiac function curve, Male, medicine.medical_specialty, Programmed cell death, Physiology, Ischemia, Apoptosis, Myocardial Reperfusion Injury, Diet, High-Fat, Mice, Physiology (medical), Internal medicine, medicine, Autophagy, Animals, Myocytes, Cardiac, Myocardial infarction, Cardioprotection, business.industry, digestive, oral, and skin physiology, NF-kappa B, food and beverages, medicine.disease, Surgery, Mice, Inbred C57BL, Endocrinology, Call for Papers, Ischemic preconditioning, Beclin-1, Cardiology and Cardiovascular Medicine, business, Apoptosis Regulatory Proteins, Microtubule-Associated Proteins
Abstract

Previous studies have demonstrated improvement of cardiac function occurs with acute consumption of a high-fat diet (HFD) after myocardial infarction (MI). However, no data exist addressing the effects of acute HFD upon the extent of injury after MI. This study investigates the hypothesis that short-term HFD, prior to infarction, protects the heart against ischemia-reperfusion (I/R) injury through NF-κB-dependent regulation of cell death pathways in the heart. Data show that an acute HFD initiates cardioprotection against MI (>50% reduction in infarct size normalized to risk region) after 24 h to 2 wk of HFD, but protection is completely absent after 6 wk of HFD, when mice are reported to develop pathophysiology related to the diet. Furthermore, cardioprotection after 24 h of HFD persists after an additional 24 h of normal chow feeding and was found to be dependent upon NF-κB activation in cardiomyocytes. This study also indicates that short-term HFD activates autophagic processes (beclin-1, LC-3) preischemia, as seen in other protective stimuli. Increases in beclin-1 and LC-3 were found to be NF-κB-dependent, and administration of chloroquine, an inhibitor of autophagy, abrogated cardioprotection. Our results support that acute high-fat feeding mediates cardioprotection against I/R injury associated with a NF-κB-dependent increase in autophagy and reduced apoptosis, as has been found for ischemic preconditioning.

Published
2014

14. Microflora changes with an acute high fat diet (1037.13)

Author

Lauren Haar, Christopher Gonzalez, Melinda A. Engevik, and Walter K. Jones

Subjects
medicine.medical_specialty, biology, Firmicutes, medicine.medical_treatment, Bacteroidetes, Vascular permeability, biology.organism_classification, Biochemistry, Actinobacteria, Real-time polymerase chain reaction, Cytokine, Endocrinology, Lymphatic system, Internal medicine, Genetics, medicine, Molecular Biology, Bacteria, Biotechnology
Abstract

Activation of NF-κB signaling and ensuing protective gene transcription in the heart is the basis for cardioprotection in the murine heart following an acute (24h) high fat diet (HFD). This protection is strongest after 2wks of high fat feeding and declines thereafter. The exact connection between acute high fat feeding and NF-κB activation is not yet fully understood. Long-term fat absorption in the intestine is associated with increased vascular permeability, decreased numbers of gram-positive bacteria, and cytokine release into lymphatic circulation. We considered the novel hypothesis that an acute HFD affects the intestinal microflora. Bacterial DNA from stool samples, luminal flushes, and mucosal scrapings were isolated from 24h high fat fed mice and changes in the phyla Firmicutes, Actinobacteria, Bacteroidetes, and Y-Proteobacteria measured by quantitative polymerase chain reaction. Our data indicates a significant increase in Actinobacteria in stool post high fat feeding. No statistically signific...

Published
2014

16. Concepts, Challenges, and Opportunities in Allo‐Head and Body Reconstruction (AHBR)

Author

Ke-Cheng Han, Zi-Long Shen, Xiao-Ping Ren, Yang Song, Ji-Gang Shan, Lauren Haar, Shu-Liang Wu, Kristin Luther, and Dong-Bo Zhao

Subjects
Pharmacology, Engineering, medicine.medical_specialty, business.industry, education, humanities, Transplantation, Psychiatry and Mental health, Physiology (medical), Family medicine, medicine, Pharmacology (medical), business, Letters to the Editor, health care economics and organizations, Head surgery
Abstract

1 Department of Orthopedics, Hand and Microsurgical Center, The Second Affiliated Hospital of Harbin Medical University, Harbin, China 2 State-Province Key Laboratories of Biomedicine-Pharmaceutics, Harbin Medical University, Harbin, China 3 Department of Internal Medicine, University of Cincinnati College of Medicine, Cincinnati, OH, USA 4 Department of Orthopedics, University of Cincinnati College of Medicine, Cincinnati, OH, USA 5 Department of Anatomy, Harbin Medical University, Harbin, China

Published
2014

19. Probenecid: novel use as a non-injurious positive inotrope acting via cardiac TRPV2 stimulation

Author

Hong-Sheng Wang, Priyanka Varma, Xiaoping Ren, Min Jiang, Wenfeng Cai, Jack Rubinstein, Sheryl E. Koch, Lauren Haar, Xiaoqian Gao, Cole Brokamp, W. Keith Jones, John N. Lorenz, Nathan Robbins, Michael Tranter, Valerie M. Lasko, and Yong Liu

Subjects
Inotrope, Agonist, Male, medicine.medical_specialty, Uricosuric, Cardiotonic Agents, medicine.drug_class, TRPV2, TRPV Cation Channels, Pharmacology, Article, Contractility, Transient receptor potential channel, Mice, Internal medicine, medicine, Animals, Myocytes, Cardiac, RNA, Messenger, Molecular Biology, Mice, Knockout, Voltage-dependent calcium channel, Dose-Response Relationship, Drug, Chemistry, Probenecid, Myocardium, Heart, Myocardial Contraction, Mice, Inbred C57BL, Endocrinology, Gene Expression Regulation, Calcium, Calcium Channels, Cardiology and Cardiovascular Medicine, medicine.drug
Abstract

Probenecid is a highly lipid soluble benzoic acid derivative originally used to increase serum antibiotic concentrations. It was later discovered to have uricosuric effects and was FDA approved for gout therapy. It has recently been found to be a potent agonist of transient receptor potential vanilloid 2 (TRPV2). We have shown that this receptor is in the cardiomyocyte and report a positive inotropic effect of the drug. Using echocardiography, Langendorff and isolated myocytes, we measured the change in contractility and, using TRPV2(-/-) mice, proved that the effect was mediated by TRPV2 channels in the cardiomyocytes. Analysis of the expression of Ca(2+) handling and β-adrenergic signaling pathway proteins showed that the contractility was not increased through activation of the β-ADR. We propose that the response to probenecid is due to activation of TRPV2 channels secondary to SR release of Ca(2+).

Published
2012

22. Coordinated post-transcriptional regulation of Hsp70.3 gene expression by microRNA and alternative polyadenylation

Author

Michael Tranter, Michael McGuinness, Yong Liu, Waltke R. Paulding, Xiaoping Ren, Lauren Haar, W. Keith Jones, Robert N. Helsley, and Cole Brokamp

Subjects
Regulation of gene expression, Mice, Knockout, Polyadenylation, Three prime untranslated region, Cell Biology, Biology, Biochemistry, Molecular biology, Cell biology, Gene product, Mice, MicroRNAs, Gene Expression Regulation, Heat shock protein, Gene expression, Animals, HSP70 Heat-Shock Proteins, Heat shock, Letters to the Editor, Molecular Biology, Post-transcriptional regulation, 3' Untranslated Regions, Heat-Shock Response
Abstract

Heat shock protein 70 (Hsp70) is well documented to possess general cytoprotective properties in protecting the cell against stressful and noxious stimuli. We have recently shown that expression of the stress-inducible Hsp70.3 gene in the myocardium in response to ischemic preconditioning is NF-κB-dependent and necessary for the resulting late phase cardioprotection against a subsequent ischemia/reperfusion injury. Here we show that the Hsp70.3 gene product is subject to post-transcriptional regulation through parallel regulatory processes involving microRNAs and alternative polyadenylation of the mRNA transcript. First, we show that cardiac ischemic preconditioning of the in vivo mouse heart results in decreased levels of two Hsp70.3-targeting microRNAs: miR-378* and miR-711. Furthermore, an ischemic or heat shock stimulus induces alternative polyadenylation of the expressed Hsp70.3 transcript that results in the accumulation of transcripts with a shortened 3′-UTR. This shortening of the 3′-UTR results in the loss of the binding site for the suppressive miR-378* and thus renders the alternatively polyadenylated transcript insusceptible to miR-378*-mediated suppression. Results also suggest that the alternative polyadenylation-mediated shortening of the Hsp70.3 3′-UTR relieves translational suppression observed in the long 3′-UTR variant, allowing for a more robust increase in protein expression. These results demonstrate alternative polyadenylation of Hsp70.3 in parallel with ischemic or heat shock-induced up-regulation of mRNA levels and implicate the importance of this process in post-transcriptional control of Hsp70.3 expression.

Published
2011

24. Acute high fat feeding influences cardiac function and confers cardioprotection against ischemic injury

Author

Yong Liu, Michael Tranter, Jack Rubinstein, Xiaoping Ren, WK Jones, Sheryl E. Koch, Lauren Haar, and Min Jiang

Subjects
Cardioprotection, Cardiac function curve, medicine.medical_specialty, business.industry, Ischemic injury, medicine.disease, Biochemistry, Internal medicine, Genetics, medicine, High fat feeding, Cardiology, Medical emergency, business, Molecular Biology, Biotechnology
Published
2011

27. Myocardial TRPV activation associated with high fat diet and cardioprotection

Author

Michael Tranter, Lauren Haar, W. Keith Jones, Min Jiang, and Jack Rubinstein

Subjects
Cardioprotection, medicine.medical_specialty, Endocrinology, business.industry, Internal medicine, Genetics, Medicine, High fat diet, business, Molecular Biology, Biochemistry, TRPV, Biotechnology
Published
2010

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