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10 results on '"Rabl, Katalin"'

1. Chemotherapy for pain: reversing inflammatory and neuropathic pain with the anticancer agent mithramycin A.

Author

Xu, Zheyun, Lee, Man-Cheung, Sheehan, Kayla, Fujii, Keisuke, Rabl, Katalin, Rader, Gabriella, Varney, Scarlett, Sharma, Manohar, Eilers, Helge, Levine, Jon, Schumacher, Mark, Miaskowski, Christine, and Kober, Kord

Subjects
Humans, Plicamycin, Oxaliplatin, Antineoplastic Agents, Neuralgia, Hyperalgesia, Ganglia, Spinal
Abstract

The persistence of inflammatory and neuropathic pain is poorly understood. We investigated a novel therapeutic paradigm by targeting gene networks that sustain or reverse persistent pain states. Our prior observations found that Sp1-like transcription factors drive the expression of TRPV1, a pain receptor, that is blocked in vitro by mithramycin A (MTM), an inhibitor of Sp1-like factors. Here, we investigate the ability of MTM to reverse in vivo models of inflammatory and chemotherapy-induced peripheral neuropathy (CIPN) pain and explore MTMs underlying mechanisms. Mithramycin reversed inflammatory heat hyperalgesia induced by complete Freund adjuvant and cisplatin-induced heat and mechanical hypersensitivity. In addition, MTM reversed both short-term and long-term (1 month) oxaliplatin-induced mechanical and cold hypersensitivity, without the rescue of intraepidermal nerve fiber loss. Mithramycin reversed oxaliplatin-induced cold hypersensitivity and oxaliplatin-induced TRPM8 overexpression in dorsal root ganglion (DRG). Evidence across multiple transcriptomic profiling approaches suggest that MTM reverses inflammatory and neuropathic pain through broad transcriptional and alternative splicing regulatory actions. Mithramycin-dependent changes in gene expression following oxaliplatin treatment were largely opposite to and rarely overlapped with changes in gene expression induced by oxaliplatin alone. Notably, RNAseq analysis revealed MTM rescue of oxaliplatin-induced dysregulation of mitochondrial electron transport chain genes that correlated with in vivo reversal of excess reactive oxygen species in DRG neurons. This finding suggests that the mechanism(s) driving persistent pain states such as CIPN are not fixed but are sustained by ongoing modifiable transcription-dependent processes.

Published
2024

2. N-Oleoyl dopamine induces IL-10 via central nervous system TRPV1 and improves endotoxemia and sepsis outcomes.

Author

Joffre, Jérémie, Wong, Erika, Lawton, Samira, Lloyd, Elliot, Nguyen, Nina, Xu, Fengyun, Sempio, Cristina, Kobzik, Lester, Zlatanova, Ivana, Schumacher, Mark, Klawitter, Jost, Su, Hua, Rabl, Katalin, Wilhelmsen, Kevin, Yeh, Che-Chung, and Hellman, Judith

Subjects
Central Nervous System, Animals, Mice, Staphylococcus aureus, Sepsis, Endotoxemia, Inflammation, Dopamine, Lipopolysaccharides, Interleukin-10, Cytokines, Endocannabinoids, Chromatography, Liquid, TRPV Cation Channels, Tandem Mass Spectrometry, ALI, Endovanilloid, IL-10, N-Oleoyl dopamine, Neuro-immune, TRPV1, Chronic Pain, Hematology, Infectious Diseases, Lung, Pain Research, Neurosciences, 2.1 Biological and endogenous factors, Aetiology, Neurological, Inflammatory and immune system, Clinical Sciences, Immunology, Neurology & Neurosurgery
Abstract

BackgroundThe transient receptor potential vanilloid 1 (TRPV1) participates in thermosensation and inflammatory pain, but its immunomodulatory mechanisms remain enigmatic. N-Oleoyl dopamine (OLDA), an endovanilloid and endocannabinoid, is a TRPV1 agonist that is produced in the central nervous system and the peripheral nervous system. We studied the anti-inflammatory effects and TRPV1-dependent mechanisms of OLDA in models of inflammation and sepsis.MethodsMice were challenged intratracheally or intravenously with LPS, or intratracheally with S. aureus to induce pneumonia and sepsis, and then were treated intravenously with OLDA. Endpoints included plasma cytokines, leukocyte activation marker expression, mouse sepsis scores, lung histopathology, and bacterial counts. The role of TRPV1 in the effects of OLDA was determined using Trpv1-/- mice, and mice with TRPV1 knockdown pan-neuronally, in peripheral nervous system neurons, or in myeloid cells. Circulating monocytes/macrophages were depleted using clodronate to determine their role in the anti-inflammatory effects of OLDA in endotoxemic mice. Levels of exogenous OLDA, and of endovanilloids and endocannabinoids, at baseline and in endotoxemic mice, were determined by LC-MS/MS.ResultsOLDA administration caused an early anti-inflammatory response in endotoxemic and septic mice with high serum levels of IL-10 and decreased levels of pro-inflammatory cytokines. OLDA also reduced lung injury and improved mouse sepsis scores. Blood and lung bacterial counts were comparable between OLDA- and carrier-treated mice with S. aureus pneumonia. OLDA's effects were reversed in mice with pan-neuronal TRPV1 knockdown, but not with TRPV1 knockdown in peripheral nervous system neurons or myeloid cells. Depletion of monocytes/macrophages reversed the IL-10 upregulation by OLDA in endotoxemic mice. Brain and blood levels of endovanilloids and endocannabinoids were increased in endotoxemic mice.ConclusionsOLDA has strong anti-inflammatory actions in mice with endotoxemia or S. aureus pneumonia. Prior studies focused on the role of peripheral nervous system TRPV1 in modulating inflammation and pneumonia. Our results suggest that TRPV1-expressing central nervous system neurons also regulate inflammatory responses to endotoxemia and infection. Our study reveals a neuro-immune reflex that during acute inflammation is engaged proximally by OLDA acting on neuronal TRPV1, and through a multicellular network that requires circulating monocytes/macrophages, leads to the systemic production of IL-10.

Published
2022

3. Additional file 1 of N-Oleoyl dopamine induces IL-10 via central nervous system TRPV1 and improves endotoxemia and sepsis outcomes

Author

Joffre, Jérémie, Wong, Erika, Lawton, Samira, Lloyd, Elliot, Nguyen, Nina, Xu, Fengyun, Sempio, Cristina, Kobzik, Lester, Zlatanova, Ivana, Schumacher, Mark, Klawitter, Jost, Su, Hua, Rabl, Katalin, Wilhelmsen, Kevin, Yeh, Che-Chung, and Hellman, Judith

Abstract

Additional file 1. Supplentary figures and legends (Figures S1–S7).

Published
2022
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9. Kinetics of Exocytosis Is Faster in Cones Than in Rods.

Author

Rabl, Katalin, Cadetti, Lucia, and Thoreson, Wallace B.

Subjects
*DYNAMICS, *EXOCYTOSIS, *NEUROTRANSMITTERS, *SYNAPSES, *CAPACITANCE meters, *RETINA cytology, *PHOTORECEPTORS
Abstract

Cone-driven responses of second-order retinal neurons are considerably faster than rod-driven responses. We examined whether differences in the kinetics of synaptic transmitter release from rods and cones may contribute to differences in postsynaptic response kinetics. Exocytosis from rods and cones was triggered by membrane depolarization and monitored in two ways: (1) by measuring EPSCs evoked in second-order neurons by depolarizing steps applied to presynaptic rods or cones during simultaneous paired whole-cell recordings or (2) by direct measurements of exocytotic increases in membrane capacitance. The kinetics of release was assessed by varying the length of the depolarizing test step. Both measures of release revealed two kinetic components to the increase in exocytosis as a function of the duration of a step depolarization. In addition to slow sustained components in both cell types, the initial fast component of exocytosis had a time constant of < 5 ms in cones, > 10-fold faster than that of rods. Rod/cone differences in the kinetics of release were substantiated by a linear correlation between depolarization-evoked capacitance increases and EPSC charge transfer. Experiments on isolated rods indicate that the slower kinetics of exocytosis from rods was not a result of rod-rod coupling. The initial rapid release of vesicles from cones can shape the postsynaptic response and may contribute to the faster responses of cone-driven cells observed at light offset. [ABSTRACT FROM AUTHOR]

Published
2005
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10. A Highly Ca2+-Sensitive Pool of Vesicles Contributes to Linearity at the Rod Photoreceptor Ribbon Synapse

Author

Thoreson, Wallace B., Rabl, Katalin, Townes-Anderson, Ellen, and Heidelberger, Ruth

Subjects
*PHOTORECEPTORS, *EXOCYTOSIS, *CELL physiology, *DYNAMICS
Abstract

Studies of the properties of synaptic transmission have been carried out at only a few synapses. We analyzed exocytosis from rod photoreceptors with a combination of physiological and ultrastructural techniques. As at other ribbon synapses, we found that rods exhibited rapid kinetics of release, and the number of vesicles in the releasable pool is comparable to the number of vesicles tethered at ribbon-style active zones. However, unlike other previously studied neurons, we identified a highly Ca2+-sensitive pool of releasable vesicles with a relatively shallow relationship between the rate of exocytosis and [Ca2+]i that is nearly linear over a presumed physiological range of intraterminal [Ca2+]. The low-order [Ca2+] dependence of release promotes a linear relationship between Ca2+ entry and exocytosis that permits rods to relay information about small changes in illumination with high fidelity at the first synapse in vision. [Copyright &y& Elsevier]

Published
2004
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