Your search keyword '"Ono, Kentaro"' showing total 13 results

1. Anti-cancer and analgesic effects of resolvin D2 in oral squamous cell carcinoma.

Author

Ye Y, Scheff NN, Bernabé D, Salvo E, Ono K, Liu C, Veeramachaneni R, Viet CT, Viet DT, Dolan JC, and Schmidt BL

Subjects

Animals, Carcinoma, Squamous Cell immunology, Carcinoma, Squamous Cell pathology, Cell Line, Tumor, Dose-Response Relationship, Drug, Female, Hot Temperature, Humans, Mice, Inbred BALB C, Mice, Nude, Mouth Neoplasms immunology, Mouth Neoplasms pathology, Neoplasm Transplantation, Pain immunology, Anti-Inflammatory Agents, Non-Steroidal pharmacology, Antineoplastic Agents pharmacology, Carcinoma, Squamous Cell drug therapy, Docosahexaenoic Acids pharmacology, Mouth Neoplasms drug therapy, Pain drug therapy

Abstract

Oral cancer is often painful and lethal. Oral cancer progression and pain may result from shared pathways that involve unresolved inflammation and elevated levels of pro-inflammatory cytokines. Resolvin D-series (RvDs) are endogenous lipid mediators derived from omega-3 fatty acids that exhibit pro-resolution and anti-inflammatory actions. These mediators have recently emerged as a novel class of therapeutics for diseases that involve inflammation; the specific roles of RvDs in oral cancer and associated pain are not defined. The present study investigated the potential of RvDs (RvD1 and RvD2) to treat oral cancer and alleviate oral cancer pain. We found down-regulated mRNA levels of GPR18 and GPR32 (which code for receptors RvD1 and RvD2) in oral cancer cells. Both RvD1 and RvD2 inhibited oral cancer proliferation in vitro. Using two validated mouse oral squamous cell carcinoma xenograft models, we found that RvD2, the more potent anti-inflammatory lipid mediator, significantly reduced tumor size. The mechanism of this action might involve suppression of IL-6, C-X-C motif chemokine 10 (CXCL10), and reduction of tumor necrosis. RvD2 generated short-lasting analgesia in xenograft cancer models, which coincided with decreased neutrophil infiltration and myeloperoxidase activity. Using a cancer supernatant model, we demonstrated that RvD2 reduced cancer-derived cytokines/chemokines (TNF-α, IL-6, CXCL10, and MCP-1), cancer mediator-induced CD11b + Ly6G - myeloid cells, and nociception. We infer from our results that manipulation of the endogenous pro-resolution pathway might provide a novel approach to improve oral cancer and cancer pain treatment., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

2. [6]-gingerol and [6]-shogaol, active ingredients of the traditional Japanese medicine hangeshashinto, relief oral ulcerative mucositis-induced pain via action on Na + channels.

Author

Hitomi S, Ono K, Terawaki K, Matsumoto C, Mizuno K, Yamaguchi K, Imai R, Omiya Y, Hattori T, Kase Y, and Inenaga K

Subjects

Analgesics pharmacology, Animals, Cell Line, HEK293 Cells, Herbal Medicine methods, Humans, Male, Medicine, East Asian Traditional methods, Pain metabolism, Pain Management methods, Plant Extracts pharmacology, Rats, Rats, Wistar, Catechols pharmacology, Drugs, Chinese Herbal pharmacology, Fatty Alcohols pharmacology, Mucositis complications, Pain drug therapy, Pain etiology, Sodium Channels pharmacokinetics

Abstract

The traditional Japanese herbal medicine hangeshashinto (HST) has beneficial effects for the treatment of oral ulcerative mucositis (OUM) in cancer patients. However, the ingredient-based mechanism that underlies its pain-relieving activity remains unknown. In the present study, to clarify the analgesic mechanism of HST on OUM-induced pain, we investigated putative HST ingredients showing antagonistic effects on Na + channels in vitro and in vivo. A screen of 21 major ingredients using automated patch-clamp recordings in channel-expressing cells showed that [6]-gingerol and [6]-shogaol, two components of a Processed Ginger extract, considerably inhibited voltage-activated Na + currents. These two ingredients inhibited the stimulant-induced release of substance P and action potential generation in cultured rat sensory neurons. A submucosal injection of a mixture of [6]-gingerol and [6]-shogaol increased the mechanical withdrawal threshold in healthy rats. In a rat OUM model, OUM-induced mechanical pain was alleviated 30min after the swab application of HST despite the absence of anti-bacterial and anti-inflammatory actions in the OUM area. A swab application of a mixture of [6]-gingerol and [6]-shogaol induced sufficient analgesia of OUM-induced mechanical or spontaneous pain when co-applied with a Ginseng extract containing abundant saponin. The Ginseng extract demonstrated an acceleration of substance permeability into the oral ulcer tissue without an analgesic effect. These findings suggest that Na + channel blockage by gingerol/shogaol plays an essential role in HST-associated analgesia of OUM-induced pain. This pharmacological mechanism provides scientific evidence supporting the use of this herbal medicine in patients suffering from OUM-induced pain., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

3. The traditional Japanese medicine hangeshashinto alleviates oral ulcer-induced pain in a rat model.

Author

Hitomi S, Ono K, Yamaguchi K, Terawaki K, Imai R, Kubota K, Omiya Y, Hattori T, Kase Y, and Inenaga K

Subjects

Acetic Acid administration & dosage, Administration, Topical, Animals, Disease Models, Animal, Hypersensitivity drug therapy, Indomethacin pharmacology, Japan, Lidocaine pharmacology, Male, Mouth Mucosa cytology, Mouth Mucosa drug effects, Mouthwashes pharmacology, Oral Ulcer complications, Oral Ulcer pathology, Pain etiology, Random Allocation, Rats, Rats, Wistar, Stomatitis drug therapy, Stomatitis pathology, Analgesics pharmacology, Drugs, Chinese Herbal administration & dosage, Oral Ulcer drug therapy, Pain drug therapy

Abstract

Objective: Recent studies have demonstrated that mouthwash made with the traditional Japanese medicine hangeshashinto exhibits anti-inflammatory action and alleviates oral mucositis scores, including pain complaints, in patients undergoing chemoradiotherapy. However, no study has demonstrated the mechanism underlying how hangeshashinto provides pain relief in oral ulcers., Design: The analgesic effects on pain-related behaviors following the topical application of hangeshashinto were evaluated in an oral ulcer rat model treated with acetic acid using recently developed methods. Indomethacin, the representative anti-inflammatory agent, was intraperitoneally administered. The tissue permeability of the oral mucosa was histologically evaluated after applying the fluorescent substance FluoroGold., Results: The topical application of hangeshashinto in ulcerative oral mucosa suppressed mechanical pain hypersensitivity over 60 min, without any effects on healthy mucosa. The same drug application also inhibited oral ulcer-induced spontaneous pain. Indomethacin administration failed to block the mechanical pain hypersensitivity, though it did largely block spontaneous pain. Topical anesthesia with lidocaine showed hyposensitivity to mechanical stimulation in healthy mucosa. In the ulcer regions in which the oral epithelial barrier was destroyed, deep parenchyma was stained with FluoroGold, in contrast to healthy oral mucosa, in which staining was limiting to the superficial site., Conclusions: Hangeshashinto leads to long-lasting analgesic effects, specifically in the ulcer region by destroying the epithelial barrier. Hangeshashinto alleviates oral ulcer-induced pain in inflammation-dependent and/or independent manner., (Copyright © 2016. Published by Elsevier Ltd.)

Published

2016

4. Distinct TRPV1- and TRPA1-based mechanisms underlying enhancement of oral ulcerative mucositis-induced pain by 5-fluorouracil.

Author

Yamaguchi K, Ono K, Hitomi S, Ito M, Nodai T, Goto T, Harano N, Watanabe S, Inoue H, Miyano K, Uezono Y, Matoba M, and Inenaga K

Subjects

Acetanilides antagonists & inhibitors, Acetanilides pharmacology, Acetanilides therapeutic use, Anesthetics, Local pharmacology, Anesthetics, Local therapeutic use, Animals, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents therapeutic use, Antimetabolites toxicity, Carcinosarcoma drug therapy, Cyclooxygenase 2 metabolism, Cytokines genetics, Cytokines metabolism, Disease Models, Animal, Eating drug effects, Fluorouracil toxicity, Hyperalgesia drug therapy, Hyperalgesia etiology, Hyperalgesia physiopathology, Leukocytes drug effects, Leukocytes pathology, Lidocaine analogs & derivatives, Lidocaine therapeutic use, Male, Microbial Viability drug effects, Polymyxin B pharmacology, Polymyxin B therapeutic use, Purines antagonists & inhibitors, Purines pharmacology, Purines therapeutic use, Rats, Rats, Wistar, Stomatitis chemically induced, Stomatitis drug therapy, Stomatitis pathology, TRPV Cation Channels genetics, Trigeminal Ganglion drug effects, Trigeminal Ganglion metabolism, Trigeminal Ganglion pathology, Pain etiology, Pain Management, Stomatitis complications, TRPV Cation Channels metabolism

Abstract

In many patients with cancer, chemotherapy-induced severe oral ulcerative mucositis causes intractable pain, leading to delays and interruptions in therapy. However, the pain mechanism in oral ulcerative mucositis after chemotherapy has not been extensively studied. In this study, we investigated spontaneous pain and mechanical allodynia in a preclinical model of oral ulcerative mucositis after systemic administration of the chemotherapy drug 5-fluorouracil, using our proprietary pain assay system for conscious rats. 5-Fluorouracil caused leukopenia but did not induce pain-related behaviors. After 5-fluorouracil administration, oral ulcers were developed with topical acetic acid treatment. Compared with saline-treated rats, 5-fluorouracil-exposed rats showed more severe mucositis with excessive bacterial loading due to a lack of leukocyte infiltration, as well as enhancements of spontaneous pain and mechanical allodynia. Antibacterial drugs, the lipid A inhibitor polymyxin B and the TRPV1/TRPA1 channel pore-passing anesthetic QX-314, suppressed both the spontaneous pain and the mechanical allodynia. The cyclooxygenase inhibitor indomethacin and the TRPV1 antagonist SB-366791 inhibited the spontaneous pain, but not the mechanical allodynia. In contrast, the TRPA1 antagonist HC-030031 and the N-formylmethionine receptor FPR1 antagonist Boc MLF primarily suppressed the mechanical allodynia. These results suggest that 5-fluorouracil-associated leukopenia allows excessive oral bacterial infection in the oral ulcerative region, resulting in the enhancement of spontaneous pain through continuous TRPV1 activation and cyclooxygenase pathway, and mechanical allodynia through mechanical sensitization of TRPA1 caused by neuronal effects of bacterial toxins. These distinct pain mechanisms explain the difficulties encountered with general treatments for oral ulcerative mucositis-induced pain in patients with cancer and suggest more effective approaches.

Published

2016

5. Novel methods of applying direct chemical and mechanical stimulation to the oral mucosa for traditional behavioral pain assays in conscious rats.

Author

Hitomi S, Ono K, Miyano K, Ota Y, Uezono Y, Matoba M, Kuramitsu S, Yamaguchi K, Matsuo K, Seta Y, Harano N, and Inenaga K

Subjects

Animals, Capsaicin adverse effects, Grooming drug effects, Hyperalgesia diagnosis, Hyperalgesia etiology, Isothiocyanates adverse effects, Male, Mouth Mucosa drug effects, Pain Threshold drug effects, Pain Threshold physiology, Rats, Rats, Sprague-Dawley, Skin innervation, Stimulation, Chemical, Time Factors, Consciousness, Mouth Mucosa innervation, Pain diagnosis, Pain etiology, Pain Measurement drug effects, Physical Stimulation

Abstract

Background: Stomatitis induces severe and painful hypersensitivity to pungency and physical contact during meals. Many studies have used anesthetized animals to examine evoked nociception in the oral mucosa, but no reports have used traditional behavioral assays to evaluate nociception in conscious animals., New Methods: We developed two new methods of applying chemical or mechanical stimulation directly to the oral mucosa of the mandibular vestibule of conscious rats. Nociceptive evaluations were performed by measuring facial grooming time and the head withdrawal threshold to von Frey stimulations. (1) For the intraoral dropping method, rat mucosa was transiently exposed by hand, and a drop of a pungent solution was applied. (2) For the stable intraoral opening method, rat mucosa was long-term exposed following piercing surgery of the mental skin after habitual training for 2-3 weeks., Results: In the intraoral dropping method, the application of 100 μM capsaicin or 100 mM allyl isothiocyanate prolonged mouth-rubbing time. Capsaicin-induced mouth-rubbing time was further enhanced following the development of an acetic acid-induced ulcer. The stable intraoral opening method enabled stable measurements of the mechanical withdrawal threshold in the oral mucosa of conscious rats. Ulcer development decreased the mechanical threshold, whereas topical lidocaine treatment increased the threshold., Comparison With Existing Methods: These new methods enable the evaluations of motivational nocifensive behaviors in response to intraoral stimulations without any anesthetic effects., Conclusions: The intraoral dropping and stable intraoral opening methods can be used in combination with traditional behavioral assays to evaluate nociception in the oral mucosa of conscious rats., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015

6. Demethylating drugs as novel analgesics for cancer pain.

Author

Viet CT, Dang D, Ye Y, Ono K, Campbell RR, and Schmidt BL

Subjects

Animals, Antineoplastic Agents pharmacology, Azacitidine analogs & derivatives, Azacitidine pharmacology, Cytidine analogs & derivatives, Cytidine pharmacology, DNA Methylation, Decitabine, Disease Models, Animal, Heterografts, Humans, Immunohistochemistry, In Situ Hybridization, Mice, Neurons metabolism, Reverse Transcriptase Polymerase Chain Reaction, Transduction, Genetic, Trigeminal Ganglion metabolism, Analgesics, Opioid pharmacology, Carcinoma, Squamous Cell complications, Mouth Neoplasms complications, Pain drug therapy, Pain etiology, Receptors, Opioid, mu genetics

Abstract

Purpose: In this study, we evaluated the analgesic potential of demethylating drugs on oral cancer pain. Although demethylating drugs could affect expression of many genes, we focused on the mu-opioid receptor (OPRM1) gene pathway, because of its role in pain processing. We determined the antinociceptive effect of OPRM1 re-expression in a mouse oral cancer model., Experimental Design: Using a mouse oral cancer model, we determined whether demethylating drugs produced antinociception through re-expression of OPRM1. We then re-expressed OPRM1 with adenoviral transduction and determined if, and by what mechanism, OPRM1 re-expression produced antinociception. To determine the clinical significance of OPRM1 on cancer pain, we quantified OPRM1 methylation in painful cancer tissues and nonpainful contralateral normal tissues of patients with oral cancer, and nonpainful dysplastic tissues of patients with oral dysplasia., Results: We demonstrated that OPRM1 was methylated in cancer tissue, but not normal tissue, of patients with oral cancer, and not in dysplastic tissues from patients with oral dysplasia. Treatment with demethylating drugs resulted in mechanical and thermal antinociception in the mouse cancer model. This behavioral change correlated with OPRM1 re-expression in the cancer and associated neurons. Similarly, adenoviral-mediated OPRM1 re-expression on cancer cells resulted in naloxone-reversible antinociception. OPRM1 re-expression on oral cancer cells in vitro increased β-endorphin secretion from the cancer, and decreased activation of neurons that were treated with cancer supernatant., Conclusion: Our study establishes the regulatory role of methylation in cancer pain. OPRM1 re-expression in cancer cells produces antinociception through cancer-mediated endogenous opioid secretion. Demethylating drugs have an analgesic effect that involves OPRM1., (©2014 American Association for Cancer Research.)

Published

2014

7. Adenosine triphosphate drives head and neck cancer pain through P2X2/3 heterotrimers.

Author

Ye Y, Ono K, Bernabé DG, Viet CT, Pickering V, Dolan JC, Hardt M, Ford AP, and Schmidt BL

Subjects

Adenosine Triphosphate pharmacology, Animals, Carcinoma metabolism, Cells, Cultured, Coculture Techniques, Disease Models, Animal, Female, Gene Expression Regulation, Neoplastic drug effects, Head and Neck Neoplasms metabolism, Humans, Male, Mice, Mice, Inbred BALB C, Mice, Nude, Nerve Fibers metabolism, Nerve Fibers pathology, Neurons drug effects, Neurons metabolism, Pain Measurement, Adenosine Triphosphate metabolism, Carcinoma complications, Head and Neck Neoplasms complications, Pain etiology, Pain metabolism, Receptors, Purinergic P2X2 physiology, Receptors, Purinergic P2X3 physiology

Abstract

Introduction: Cancer pain creates a poor quality of life and decreases survival. The basic neurobiology of cancer pain is poorly understood. Adenosine triphosphate (ATP) and the ATP ionotropic receptor subunits, P2X2 and P2X3, mediate cancer pain in animal models; however, it is unknown whether this mechanism operates in human, and if so, what the relative contribution of P2X2- and P2X3-containing trimeric channels to cancer pain is. Here, we studied head and neck squamous cell carcinoma (HNSCC), which causes the highest level of function-induced pain relative to other types of cancer., Results: We show that the human HNSCC tissues contain significantly increased levels of ATP compared to the matched normal tissues. The high levels of ATP are secreted by the cancer and positively correlate with self-reported function-induced pain in patients. The human HNSCC microenvironment is densely innervated by nerve fibers expressing both P2X2 and P2X3 subunits. In animal models of HNSCC we showed that ATP in the cancer microenvironment likely heightens pain perception through the P2X2/3 trimeric receptors. Nerve growth factor (NGF), another cancer-derived pain mediator found in both human and mouse HNSCC, induces P2X2 and P2X3 hypersensitivity and increases subunit expression in murine trigeminal ganglion (TG) neurons., Conclusions: These data identify a key peripheral mechanism in cancer pain and highlight the clinical potential of specifically targeting nociceptors expressing both P2X2 and P2X3 subunits (e.g., P2X2/3 heterotrimers) to alleviate cancer pain.

Published

2014

8. PIEZO1 promotes ATP release from periodontal ligament cells following compression force.

Author

Horie, Seiwa, Nakatomi, Chihiro, Ito-Sago, Misa, Morii, Aoi, Orimoto, Ai, Ikeda, Hiroshi, Hsu, Chia-Chien, Naniwa, Mako, Mizuhara, Masahiro, Gunjigake, Kaori, Kawamoto, Tatsuo, and Ono, Kentaro

Subjects

PERIODONTAL ligament, GENE expression, RNA interference, ADENOSINE triphosphate, POLYMERASE chain reaction

Abstract

Objectives Orthodontic mechanical force on the periodontal ligament induces extracellular adenosine triphosphate (ATP) release. However, mechanosensitive molecules have not been confirmed functionally in periodontal ligament cells. In the present study, we examined the roles of mechanosensitive PIEZO channels in the mechanically stimulated release of ATP in human periodontal ligament fibroblasts (HPdLFs). Materials and methods To examine PIEZO expression in HPdLFs, we performed reverse transcription–quantitative polymerase chain reaction, fluorescent immunostaining, and Ca2+ imaging. ATP concentrations were measured in culture medium after applications of the PIEZO1 agonist Yoda1 and compression force in a newly developed in vitro weight-loaded cell model (IVWLC) using balance weights and a 48-well plate. The mechanosensitive channel inhibitor GsMTx4 and the ATP-releasing route inhibitors clodronic acid, meclofenamic acid, and probenecid were used. To suppress PIEZO1 expression, short interference RNA (siRNA) treatment of the PIEZO1 gene was performed. Results PIEZO1 mRNA was expressed more abundantly than PIEZO2 mRNA in HPdLFs. HPdLF cell bodies were immunoreactive to anti-PIEZO1 antibody. Yoda1 increased intracellular Ca2+ and extracellular ATP concentrations in a dose-dependent manner. ATP release was inhibited by GsMTx4 and inhibitors of ATP release routes. In the IVWLC, HPdLFs released ATP in response to compression force but not in response to hypoxic stimulation that was simultaneously applied to cells. Mechanically stimulated ATP release was inhibited by GsMTx4, inhibitors of ATP-releasing routes and siRNA treatment of PIEZO1. Conclusions PIEZO1 on the cell membranes of HPdLFs is activated by compression force and then induces ATP release via intracellular Ca2+-dependent exocytosis and ATP-permeable channels. [ABSTRACT FROM AUTHOR]

Published

2023

9. Prostanoid-dependent spontaneous pain and PAR2-dependent mechanical allodynia following oral mucosal trauma

Author

Ito, Misa, Ono, Kentaro, Hitomi, Suzuro, Nodai, Tomotaka, Sago, Teppei, Yamaguchi, Kiichiro, Harano, Nozomu, Gunjigake, Kaori, Hosokawa, Ryuji, Kawamoto, Tatsuo, and Inenaga, Kiyotoshi

Subjects

Male, Sulfonamides, oral abscess, Pain, TRPV Cation Channels, TRPA1, PAR2, TRPV1, Bridged Bicyclo Compounds, TRPV4, Hyperalgesia, Purines, Prostaglandins, Animals, Receptor, PAR-2, Acetanilides, Rats, Wistar, Caproates, TRPA1 Cation Channel, Research Article, Oral traumatic mucositis

Abstract

During dental treatments, intraoral appliances frequently induce traumatic ulcers in the oral mucosa. Such mucosal injury-induced mucositis leads to severe pain, resulting in poor quality of life and decreased cooperation in the therapy. To elucidate mucosal pain mechanisms, we developed a new rat model of intraoral wire-induced mucositis and investigated pain mechanisms using our proprietary assay system for conscious rats. A thick metal wire was installed in the rats between the inferior incisors for one day. In the mucosa of the mandibular labial fornix region, which was touched with a free end of the wire, traumatic ulcer and submucosal abscess were induced on day 1. The ulcer was quickly cured until next day and abscess formation was gradually disappeared until five days. Spontaneous nociceptive behavior was induced on day 1 only, and mechanical allodynia persisted over day 3. Antibiotic pretreatment did not affect pain induction. Spontaneous nociceptive behavior was sensitive to indomethacin (cyclooxygenase inhibitor), ONO-8711 (prostanoid receptor EP1 antagonist), SB-366791, and HC-030031 (TRPV1 and TRPA1 antagonists, respectively). Prostaglandin E2 and 15-deoxyΔ12,14-prostaglandin J2 were upregulated only on day 1. In contrast, mechanical allodynia was sensitive to FSLLRY-NH2 (protease-activated receptor PAR2 antagonist) and RN-1734 (TRPV4 antagonist). Neutrophil elastase, which is known as a biased agonist for PAR2, was upregulated on days 1 to 2. These results suggest that prostanoids and PAR2 activation elicit TRPV1- and TRPA1-mediated spontaneous pain and TRPV4-mediated mechanical allodynia, respectively, independently of bacterial infection, following oral mucosal trauma. The pathophysiological pain mechanism suggests effective analgesic approaches for dental patients suffering from mucosal trauma-induced pain.

Published

2017

10. Pain mechanism of oral ulcerative mucositis and the therapeutic traditional herbal medicine hangeshashinto.

Author

Hitomi, Suzuro, Ujihara, Izumi, and Ono, Kentaro

Abstract

Abstract Background Oral ulcerative mucositis causes severe pain during eating and speaking, resulting in poor quality of life for patients with cancer undergoing chemoradiotherapy. Recently, some basic and clinical studies demonstrated that hangeshashinto, a traditional Japanese herbal medicine, alleviated oral ulcerative mucositis-induced pain. Here, we review a recently revealed pain mechanism underlying oral ulcerative mucositis in a preclinical rat model and the pharmacological analgesic effect of hangeshashinto. Highlight In a rat model of experimentally induced oral ulcerative mucositis, the mucosal surface of the ulcerative region is damaged, which increases oral bacterial loading in the mucosa and prostanoid production. Chemotherapeutic drugs exaggerate the pathological condition and cause severe pain. The pain-related TRP channels, TRPV1, TRPA1, and/or TRPV4, mediate spontaneous and mechanical pain in oral ulcerative mucositis models. Swab application of hangeshashinto had a prolonged localized analgesic effect on oral ulcerative mucositis, even in a chemotherapy-treated oral ulcer model. Two ingredients of hangeshashinto, gingerol and shogaol, strongly inhibit voltage-activated sodium channels (though they have agonistic effects on TRPV1 and TRPA1), which confers hyposensitivity to the oral mucosa. Their analgesic effects on oral ulcerative mucositis are accompanied by accelerated delivery of drugs (other saponin-containing herbal extracts) into the ulcerative region. Conclusion Elucidation of the pain mechanism of oral ulcerative mucositis and analgesic mechanism of hangeshashinto will allow identification of novel therapeutic approaches against oral ulcerative mucositis-induced pain in patients. The traditional Japanese herbal medicine hangeshashinto is a reliable drug with supporting scientific evidence. [ABSTRACT FROM AUTHOR]

Published

2019

11. Analgesic Mechanisms of Steroid Ointment against Oral Ulcerative Mucositis in a Rat Model.

Author

Naniwa, Mako, Nakatomi, Chihiro, Hitomi, Suzuro, Matsuda, Kazunari, Tabuchi, Takuya, Sugiyama, Daijiro, Kubo, Sayaka, Miyamura, Yuichi, Yoshino, Kenichi, Akifusa, Sumio, and Ono, Kentaro

Subjects

ANIMAL disease models, OINTMENTS, TRIAMCINOLONE acetonide, MUCOSITIS, ORAL mucosa, STEROID drugs

Abstract

Despite the long history of use of steroid ointments for oral mucositis, the analgesic mechanism has not been fully elucidated. In this study, we examined the effects of triamcinolone acetonide (Tmc) on oral ulcerative mucositis-induced pain in conscious rats by our proprietary assay system. Based on evaluations of the physical properties and retention periods in the oral mucosa of human volunteers and rats, we selected TRAFUL® ointment as a long-lasting base. In oral ulcerative mucositis model rats, TRAFUL® with Tmc suppressed cyclooxygenase-dependent inflammatory responses with upregulations of glucocorticoid receptor-induced anti-inflammatory genes and inhibited spontaneous nociceptive behavior. When an ointment with a shorter residual period was used, the effects of Tmc were not elicited or were induced to a lesser extent. Importantly, TRAFUL® with Tmc also improved oral ulcerative mucositis-induced mechanical allodynia, which has been reported to be independent of cyclooxygenase. Ca2+ imaging in dissociated trigeminal ganglion neurons showed that long-term preincubation with Tmc inhibited the hypertonic stimulation-induced Ca2+ response. These results suggest that the representative steroid Tmc suppresses oral ulcerative mucositis-induced pain by general anti-inflammatory actions and inhibits mechanical sensitivity in peripheral nerves. For drug delivery, long-lasting ointments such as TRAFUL® are needed to sufficiently induce the therapeutic effects. [ABSTRACT FROM AUTHOR]

Published

2021

12. Effect of cisplatin on oral ulcer-induced nociception in rats.

Author

Nakatomi, Chihiro, Hitomi, Suzuro, Yamaguchi, Kiichiro, Hsu, Chia-Chien, Harano, Nozomu, Iwata, Koichi, and Ono, Kentaro

Subjects

*MUCOSITIS, *CISPLATIN, *PEPTIDE receptors, *ORAL mucosa, *HEAD & neck cancer, *RATS, *ACETIC acid

Abstract

The aim of this study is to investigate effects of cisplatin preadministration on oral ulcerative mucositis-induced nociception by using an experimental model of rats. After two rounds of cisplatin administration, oral ulcers developed with topical acetic acid treatment in rats. Spontaneous mouth rubbing behavior was observed as spontaneous nociceptive behavior in a plastic cage. Head-withdrawal behavior was observed as mechanical allodynia by using von Frey test in the oral mucosa of conscious rats. Bacterial invasion and inflammatory cell infiltration into oral ulcerative region and systemic leukocyte phagocytic activity were assessed. Following cisplatin preadministration, oral ulcerative mucositis-induced spontaneous nociceptive behavior was not observed in the model. The preadministration enhanced leukocyte phagocytic activity, leading to reduce bacterial invasion and inflammatory cell infiltration in the oral ulcerative region. In contrast, oral ulcerative mucositis-induced mechanical allodynia was induced. The exaggerated mechanical allodynia in the oral ulcerative region was largely inhibited by topical treatment with the antioxidative drug, ɑ-lipoic acid, or the blocker of N -formyl peptide receptor 1, N -t-butoxycarbonyl-methionyl-leucyl-phenylalanine. These results suggest that cisplatin preadministration suppresses spontaneous nociception in oral ulcerative region, due to antiinflammatory effects by enhancement of leukocyte phagocytic activity, but exaggerates mechanical allodynia due to oxidative stress with N -formyl peptide receptor 1 activation. The suppression of spontaneous nociception is one of the advantages of cisplatin treatment for head and neck cancer patients although the exaggerated allodynia is a serious symptom. • Cisplatin suppresses oral ulcerative mucositis-induced spontaneous nociception. • Cisplatin enhances leukocyte phagocytic activity, leading to antiinflammation. • Mechanical allodynia is still observable in cisplatin treated rats. [ABSTRACT FROM AUTHOR]

Published

2022

13. Distinct TRPV1- and TRPA1-based mechanisms underlying enhancement of oral ulcerative mucositis-induced pain by 5-fluorouracil.

Author

Kiichiro Yamaguchi, Kentaro Ono, Suzuro Hitomi, Misa Ito, Tomotaka Nodai, Tetsuya Goto, Nozomu Harano, Seiji Watanabe, Hiromasa Inoue, Kanako Miyano, Yasuhito Uezono, Motohiro Matoba, Kiyotoshi Inenaga, Yamaguchi, Kiichiro, Ono, Kentaro, Hitomi, Suzuro, Ito, Misa, Nodai, Tomotaka, Goto, Tetsuya, and Harano, Nozomu

Subjects

*MUCOSITIS, *TRP channels, *INTRACTABLE pain, *FLUOROURACIL, *CHEMOTHERAPY complications, *ALLODYNIA, *ANTIBIOTICS, *PAIN management, *AMIDES, *ANIMAL experimentation, *ANTIMETABOLITES, *BIOLOGICAL models, *CARRIER proteins, *COMPARATIVE studies, *CYTOKINES, *SENSORY ganglia, *HYPERALGESIA, *INGESTION, *LEUCOCYTES, *LIDOCAINE, *LOCAL anesthetics, *RESEARCH methodology, *MEDICAL cooperation, *OXIDOREDUCTASES, *PAIN, *PURINES, *RATS, *RESEARCH, *SARCOMA, *STOMATITIS, *EVALUATION research, *CHEMICAL inhibitors, *POLYMYXIN B, *DISEASE complications, *PHARMACODYNAMICS, *THERAPEUTICS

Abstract

In many patients with cancer, chemotherapy-induced severe oral ulcerative mucositis causes intractable pain, leading to delays and interruptions in therapy. However, the pain mechanism in oral ulcerative mucositis after chemotherapy has not been extensively studied. In this study, we investigated spontaneous pain and mechanical allodynia in a preclinical model of oral ulcerative mucositis after systemic administration of the chemotherapy drug 5-fluorouracil, using our proprietary pain assay system for conscious rats. 5-Fluorouracil caused leukopenia but did not induce pain-related behaviors. After 5-fluorouracil administration, oral ulcers were developed with topical acetic acid treatment. Compared with saline-treated rats, 5-fluorouracil-exposed rats showed more severe mucositis with excessive bacterial loading due to a lack of leukocyte infiltration, as well as enhancements of spontaneous pain and mechanical allodynia. Antibacterial drugs, the lipid A inhibitor polymyxin B and the TRPV1/TRPA1 channel pore-passing anesthetic QX-314, suppressed both the spontaneous pain and the mechanical allodynia. The cyclooxygenase inhibitor indomethacin and the TRPV1 antagonist SB-366791 inhibited the spontaneous pain, but not the mechanical allodynia. In contrast, the TRPA1 antagonist HC-030031 and the N-formylmethionine receptor FPR1 antagonist Boc MLF primarily suppressed the mechanical allodynia. These results suggest that 5-fluorouracil-associated leukopenia allows excessive oral bacterial infection in the oral ulcerative region, resulting in the enhancement of spontaneous pain through continuous TRPV1 activation and cyclooxygenase pathway, and mechanical allodynia through mechanical sensitization of TRPA1 caused by neuronal effects of bacterial toxins. These distinct pain mechanisms explain the difficulties encountered with general treatments for oral ulcerative mucositis-induced pain in patients with cancer and suggest more effective approaches. [ABSTRACT FROM AUTHOR]

Published

2016