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4. Enhancement of Ca2+-induced Ca2+ release by cyclic ADP-ribose in frog motor nerve terminals

Author

Hachisuka, J., Soga-Sakakibara, S., Kubota, M., Narita, K., and Kuba, K.

Subjects
*PROTEIN kinases, *ANAEROBIC infections, *RYANODINE
Abstract

Abstract: Ca2+-induced Ca2+ release (CICR) occurs via activation of ryanodine receptors (RyRs) in frog motor nerve terminals after RyRs are primed for activation by repetitive Ca2+ entries, thereby contributing to synaptic plasticity. To clarify how the mechanism of CICR becomes activable by repetitive Ca2+ entries, we studied effects of a RyR modulator, cyclic ADP-ribose (cADPr), on CICR by Ca2+ imaging techniques. Use-dependent binding of fluorescent ryanodine and its blockade by ryanodine revealed the existence of RyRs in the terminals. Repetition of tetani applied to the nerve produced repetitive rises in intracellular Ca2+ ([Ca2+]i) in the terminals. The amplitude of each rise slowly waxed and waned during the course of the stimulation. These slow rises and decays were blocked by ryanodine, indicating the priming, activation and inactivation of CICR. Uncaging of caged-cADPr loaded in the terminals increased the amplitude of short tetanus-induced rises in [Ca2+]i and the amplitude, time to peak and half decay time of the slow waxing and waning rises in [Ca2+]i evoked by repetitive tetani. A cADPr blocker, 8-amino-cADPr, loaded in the terminals decreased the slow waxing and waning component of rises and blocked all the actions of exogenous cADPr. It is concluded that cADPr enhances the priming and activation of CICR. The four-state model for RyRs suggests that cADPr inhibits the inactivation of CICR and increases the activation efficacy of RyR. [Copyright &y& Elsevier]

Published
2007
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5. Deep sequencing of Phox2a nuclei reveals five classes of anterolateral system neurons.

Author

Bell AM, Utting C, Dickie AC, Kucharczyk MW, Quillet R, Gutierrez-Mecinas M, Razlan ANB, Cooper AH, Lan Y, Hachisuka J, Weir GA, Bannister K, Watanabe M, Kania A, Hoon MA, Macaulay IC, Denk F, and Todd AJ

Subjects
Animals, Mice, Spinal Cord cytology, Spinal Cord metabolism, Neurons metabolism, High-Throughput Nucleotide Sequencing, Male, Cell Nucleus metabolism, Cell Nucleus genetics, Transcription Factors genetics, Transcription Factors metabolism, Homeodomain Proteins genetics, Homeodomain Proteins metabolism
Abstract

The anterolateral system (ALS) is a major ascending pathway from the spinal cord that projects to multiple brain areas and underlies the perception of pain, itch, and skin temperature. Despite its importance, our understanding of this system has been hampered by the considerable functional and molecular diversity of its constituent cells. Here, we use fluorescence-activated cell sorting to isolate ALS neurons belonging to the Phox2a-lineage for single-nucleus RNA sequencing. We reveal five distinct clusters of ALS neurons (ALS1-5) and document their laminar distribution in the spinal cord using in situ hybridization. We identify three clusters of neurons located predominantly in laminae I-III of the dorsal horn (ALS1-3) and two clusters with cell bodies located in deeper laminae (ALS4 and ALS5). Our findings reveal the transcriptional logic that underlies ALS neuronal diversity in the adult mouse and uncover the molecular identity of two previously identified classes of projection neurons. We also show that these molecular signatures can be used to target groups of ALS neurons using retrograde viral tracing. Overall, our findings provide a valuable resource for studying somatosensory biology and targeting subclasses of ALS neurons., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published
2024
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6. Deep sequencing of Phox2a nuclei reveals five classes of anterolateral system neurons.

Author

Bell AM, Utting C, Dickie AC, Kucharczyk MW, Quillet R, Gutierrez-Mecinas M, Razlan ANB, Cooper AH, Lan Y, Hachisuka J, Weir GA, Bannister K, Watanabe M, Kania A, Hoon MA, Macaulay IC, Denk F, and Todd AJ

Abstract

The anterolateral system (ALS) is a major ascending pathway from the spinal cord that projects to multiple brain areas and underlies the perception of pain, itch and skin temperature. Despite its importance, our understanding of this system has been hampered by the considerable functional and molecular diversity of its constituent cells. Here we use fluorescence-activated cell sorting to isolate ALS neurons belonging to the Phox2a-lineage for single-nucleus RNA sequencing. We reveal five distinct clusters of ALS neurons (ALS1-5) and document their laminar distribution in the spinal cord using in situ hybridization. We identify 3 clusters of neurons located predominantly in laminae I-III of the dorsal horn (ALS1-3) and two clusters with cell bodies located in deeper laminae (ALS4 & ALS5). Our findings reveal the transcriptional logic that underlies ALS neuronal diversity in the adult mouse and uncover the molecular identity of two previously identified classes of projection neurons. We also show that these molecular signatures can be used to target groups of ALS neurons using retrograde viral tracing. Overall, our findings provide a valuable resource for studying somatosensory biology and targeting subclasses of ALS neurons., Competing Interests: Competing Interest Statement: The authors declare no competing interests.

Published
2023
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7. Cell type-specific calcium imaging of central sensitization in mouse dorsal horn.

Author

Warwick C, Salsovic J, Hachisuka J, Smith KM, Sheahan TD, Chen H, Ibinson J, Koerber HR, and Ross SE

Subjects
Animals, Calcium metabolism, Capsaicin metabolism, Capsaicin pharmacology, Mice, Posterior Horn Cells metabolism, Spinal Cord Dorsal Horn, Central Nervous System Sensitization, Hyperalgesia metabolism
Abstract

Allodynia is a state in which pain is elicited by innocuous stimuli. Capsaicin applied to the skin results in an allodynia that extends to a broad region beyond the application site. This sensitization is thought to be mediated by spinal networks; however, we do not have a clear picture of which spinal neurons mediate this phenomenon. To address this gap, we used two-photon calcium imaging of excitatory interneurons and spinal projection neurons in the mouse spinal dorsal horn. To distinguish among neuronal subtypes, we developed CICADA, a cell profiling approach to identify cell types during calcium imaging. We then identified capsaicin-responsive and capsaicin-sensitized neuronal populations. Capsaicin-sensitized neurons showed emergent responses to innocuous input and increased receptive field sizes consistent with psychophysical reports. Finally, we identified spinal output neurons that showed enhanced responses from innocuous input. These experiments provide a population-level view of central sensitization and a framework with which to model somatosensory integration in the dorsal horn., (© 2022. The Author(s).)

Published
2022
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8. MrgprdCre lineage neurons mediate optogenetic allodynia through an emergent polysynaptic circuit.

Author

Warwick C, Cassidy C, Hachisuka J, Wright MC, Baumbauer KM, Adelman PC, Lee KH, Smith KM, Sheahan TD, Ross SE, and Koerber HR

Subjects
Animals, Mice, Neurons, Nociceptors, Spinal Cord Dorsal Horn, Hyperalgesia, Optogenetics
Abstract

Abstract: Most cutaneous C fibers, including both peptidergic and nonpeptidergic subtypes, are presumed to be nociceptors and respond to noxious input in a graded manner. However, mechanically sensitive, nonpeptidergic C fibers also respond to mechanical input in the innocuous range, so the degree to which they contribute to nociception remains unclear. To address this gap, we investigated the function of nonpeptidergic afferents using the MrgprdCre allele. In real-time place aversion studies, we found that low-frequency optogenetic activation of MrgrpdCre lineage neurons was not aversive in naive mice but became aversive after spared nerve injury (SNI). To address the underlying mechanisms of this allodynia, we recorded responses from lamina I spinoparabrachial (SPB) neurons using the semi-intact ex vivo preparation. After SNI, innocuous brushing of the skin gave rise to abnormal activity in lamina I SPB neurons, consisting of an increase in the proportion of recorded neurons that responded with excitatory postsynaptic potentials or action potentials. This increase was likely due, at least in part, to an increase in the proportion of lamina I SPB neurons that received input on optogenetic activation of MrgprdCre lineage neurons. Intriguingly, in SPB neurons, there was a significant increase in the excitatory postsynaptic current latency from MrgprdCre lineage input after SNI, consistent with the possibility that the greater activation post-SNI could be due to the recruitment of a new polysynaptic circuit. Together, our findings suggest that MrgprdCre lineage neurons can provide mechanical input to the dorsal horn that is nonnoxious before injury but becomes noxious afterwards because of the engagement of a previously silent polysynaptic circuit in the dorsal horn., (Copyright © 2021 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the International Association for the Study of Pain.)

Published
2021
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9. Morphine acts on spinal dynorphin neurons to cause itch through disinhibition.

Author

Nguyen E, Lim G, Ding H, Hachisuka J, Ko MC, and Ross SE

Subjects
Analgesics, Opioid adverse effects, Animals, Humans, Mice, Neurons, Pruritus chemically induced, Pruritus drug therapy, Dynorphins, Morphine
Abstract

Morphine-induced itch is a very common and debilitating side effect that occurs in laboring women who receive epidural analgesia and in patients who receive spinal morphine for relief of perioperative pain. Although antihistamines are still widely prescribed for the treatment of morphine-induced itch, their use is controversial because the cellular basis for morphine-induced itch remains unclear. Here, we used animal models and show that neuraxial morphine causes itch through neurons and not mast cells. In particular, we found that spinal dynorphin (Pdyn) neurons are both necessary and sufficient for morphine-induced itch in mice. Agonism of the kappa-opioid receptor alleviated morphine-induced itch in mice and nonhuman primates. Thus, our findings not only reveal that morphine causes itch through a mechanism of disinhibition but also challenge the long-standing use of antihistamines, thereby informing the treatment of millions worldwide., (Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published
2021
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10. Parallel ascending spinal pathways for affective touch and pain.

Author

Choi S, Hachisuka J, Brett MA, Magee AR, Omori Y, Iqbal NU, Zhang D, DeLisle MM, Wolfson RL, Bai L, Santiago C, Gong S, Goulding M, Heintz N, Koerber HR, Ross SE, and Ginty DD

Subjects
Animals, Axons metabolism, Female, Male, Mechanotransduction, Cellular, Mice, Philosophy, Receptors, G-Protein-Coupled genetics, Sensory Receptor Cells metabolism, Skin innervation, Synapses metabolism, Neural Pathways, Pain physiopathology, Spinal Cord cytology, Spinal Cord physiology, Touch physiology
Abstract

The anterolateral pathway consists of ascending spinal tracts that convey pain, temperature and touch information from the spinal cord to the brain 1-4 . Projection neurons of the anterolateral pathway are attractive therapeutic targets for pain treatment because nociceptive signals emanating from the periphery are channelled through these spinal projection neurons en route to the brain. However, the organizational logic of the anterolateral pathway remains poorly understood. Here we show that two populations of projection neurons that express the structurally related G-protein-coupled receptors (GPCRs) TACR1 and GPR83 form parallel ascending circuit modules that cooperate to convey thermal, tactile and noxious cutaneous signals from the spinal cord to the lateral parabrachial nucleus of the pons. Within this nucleus, axons of spinoparabrachial (SPB) neurons that express Tacr1 or Gpr83 innervate distinct sets of subnuclei, and strong optogenetic stimulation of the axon terminals induces distinct escape behaviours and autonomic responses. Moreover, SPB neurons that  express Gpr83 are highly sensitive to cutaneous mechanical stimuli and receive strong synaptic inputs from both high- and low-threshold primary mechanosensory neurons. Notably, the valence associated with activation of SPB neurons that express Gpr83 can be either positive or negative, depending on stimulus intensity. These findings reveal anatomically, physiologically and functionally distinct subdivisions of the SPB tract that underlie affective aspects of touch and pain.

Published
2020
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11. Selective-cold output through a distinct subset of lamina I spinoparabrachial neurons.

Author

Hachisuka J, Koerber HR, and Ross SE

Subjects
Action Potentials drug effects, Animals, Female, Male, Mice, Neural Pathways drug effects, Neural Pathways physiology, Neurons drug effects, Parabrachial Nucleus drug effects, Patch-Clamp Techniques, Spinal Cord drug effects, Substance P pharmacology, Action Potentials physiology, Cold Temperature, Neurons physiology, Parabrachial Nucleus physiology, Spinal Cord physiology
Abstract

Spinal projection neurons are a major pathway through which somatic stimuli are conveyed to the brain. However, the manner in which this information is coded is poorly understood. Here, we report the identification of a modality-selective spinoparabrachial (SPB) neuron subtype with unique properties. Specifically, we find that cold-selective SPB neurons are differentiated by selective afferent input, reduced sensitivity to substance P, distinct physiological properties, small soma size, and low basal drive. In addition, optogenetic experiments reveal that cold-selective SPB neurons do not receive input from Nos1 inhibitory interneurons and, compared with other SPB neurons, show significantly smaller inhibitory postsynaptic currents upon activation of Pdyn inhibitory interneurons. Together, these data suggest that cold output from the spinal cord to the parabrachial nucleus is mediated by a specific cell type with distinct properties.

Published
2020
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12. Conversion of Sox2-dependent Merkel cell carcinoma to a differentiated neuron-like phenotype by T antigen inhibition.

Author

Harold A, Amako Y, Hachisuka J, Bai Y, Li MY, Kubat L, Gravemeyer J, Franks J, Gibbs JR, Park HJ, Ezhkova E, Becker JC, and Shuda M

Subjects
Antigens, Viral, Tumor immunology, Antigens, Viral, Tumor metabolism, Carcinoma, Merkel Cell pathology, Cell Cycle genetics, Cell Line, Tumor, Cell Lineage genetics, Cell Transformation, Viral, Gene Knockdown Techniques, Humans, Keratinocytes, Merkel Cells metabolism, Merkel cell polyomavirus immunology, Neurites metabolism, Neurons metabolism, Polyomavirus Infections immunology, Polyomavirus Infections virology, SOXB1 Transcription Factors metabolism, Tumor Virus Infections complications, Tumor Virus Infections immunology, Tumor Virus Infections virology, Antigens, Viral, Tumor genetics, Carcinoma, Merkel Cell etiology, Carcinoma, Merkel Cell metabolism, Merkel cell polyomavirus genetics, Phenotype, Polyomavirus Infections complications, SOXB1 Transcription Factors genetics
Abstract

Viral cancers show oncogene addiction to viral oncoproteins, which are required for survival and proliferation of the dedifferentiated cancer cell. Human Merkel cell carcinomas (MCCs) that harbor a clonally integrated Merkel cell polyomavirus (MCV) genome have low mutation burden and require viral T antigen expression for tumor growth. Here, we showed that MCV + MCC cells cocultured with keratinocytes undergo neuron-like differentiation with neurite outgrowth, secretory vesicle accumulation, and the generation of sodium-dependent action potentials, hallmarks of a neuronal cell lineage. Cocultured keratinocytes are essential for induction of the neuronal phenotype. Keratinocyte-conditioned medium was insufficient to induce this phenotype. Single-cell RNA sequencing revealed that T antigen knockdown inhibited cell cycle gene expression and reduced expression of key Merkel cell lineage/MCC marker genes, including HES6 , SOX2 , ATOH1 , and KRT20 Of these, T antigen knockdown directly inhibited Sox2 and Atoh1 expression. MCV large T up-regulated Sox2 through its retinoblastoma protein-inhibition domain, which in turn activated Atoh1 expression. The knockdown of Sox2 in MCV + MCCs mimicked T antigen knockdown by inducing MCC cell growth arrest and neuron-like differentiation. These results show Sox2-dependent conversion of an undifferentiated, aggressive cancer cell to a differentiated neuron-like phenotype and suggest that the ontology of MCC arises from a neuronal cell precursor., (Copyright © 2019 the Author(s). Published by PNAS.)

Published
2019
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13. Kappa Opioid Receptor Distribution and Function in Primary Afferents.

Author

Snyder LM, Chiang MC, Loeza-Alcocer E, Omori Y, Hachisuka J, Sheahan TD, Gale JR, Adelman PC, Sypek EI, Fulton SA, Friedman RL, Wright MC, Duque MG, Lee YS, Hu Z, Huang H, Cai X, Meerschaert KA, Nagarajan V, Hirai T, Scherrer G, Kaplan DH, Porreca F, Davis BM, Gold MS, Koerber HR, and Ross SE

Subjects
Animals, Axons physiology, Mice, Mice, Transgenic, Neurons physiology, Nociceptors drug effects, Nociceptors metabolism, Pain Management, Receptors, Opioid, kappa metabolism, Neurons, Afferent drug effects, Pain drug therapy, Receptors, Opioid, kappa antagonists & inhibitors, Signal Transduction physiology
Abstract

Primary afferents are known to be inhibited by kappa opioid receptor (KOR) signaling. However, the specific types of somatosensory neurons that express KOR remain unclear. Here, using a newly developed KOR-cre knockin allele, viral tracing, single-cell RT-PCR, and ex vivo recordings, we show that KOR is expressed in several populations of primary afferents: a subset of peptidergic sensory neurons, as well as low-threshold mechanoreceptors that form lanceolate or circumferential endings around hair follicles. We find that KOR acts centrally to inhibit excitatory neurotransmission from KOR-cre afferents in laminae I and III, and this effect is likely due to KOR-mediated inhibition of Ca 2+ influx, which we observed in sensory neurons from both mouse and human. In the periphery, KOR signaling inhibits neurogenic inflammation and nociceptor sensitization by inflammatory mediators. Finally, peripherally restricted KOR agonists selectively reduce pain and itch behaviors, as well as mechanical hypersensitivity associated with a surgical incision. These experiments provide a rationale for the use of peripherally restricted KOR agonists for therapeutic treatment., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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14. Small RNAs, but Sizable Itch: TRPA1 Activation by an Extracellular MicroRNA.

Author

Sheahan TD, Hachisuka J, and Ross SE

Subjects
Humans, Pruritus, Sensory Receptor Cells, TRPA1 Cation Channel, MicroRNAs, Transient Receptor Potential Channels
Abstract

Chronic itch is a major symptom of cutaneous T cell lymphoma (CTCL). In this issue of Neuron, Han and colleagues (2018) provide evidence that one of the itch mediators in CTCL is an extracellular miRNA that directly activates TRPA1 on sensory neurons., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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15. Wind-up in lamina I spinoparabrachial neurons: a role for reverberatory circuits.

Author

Hachisuka J, Omori Y, Chiang MC, Gold MS, Koerber HR, and Ross SE

Subjects
Animals, Mice, Patch-Clamp Techniques, Interneurons physiology, Neurons physiology, Pain physiopathology, Spinal Cord physiopathology, Spinal Cord Dorsal Horn physiopathology
Abstract

Wind-up is a frequency-dependent increase in the response of spinal cord neurons, which is believed to underlie temporal summation of nociceptive input. However, whether spinoparabrachial neurons, which likely contribute to the affective component of pain, undergo wind-up was unknown. Here, we addressed this question and investigated the underlying neural circuit. We show that one-fifth of lamina I spinoparabrachial neurons undergo wind-up, and provide evidence that wind-up in these cells is mediated in part by a network of spinal excitatory interneurons that show reverberating activity. These findings provide insight into a polysynaptic circuit of sensory augmentation that may contribute to the wind-up of pain's unpleasantness.

Published
2018
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16. Itch and neuropathic itch.

Author

Hachisuka J, Chiang MC, and Ross SE

Subjects
Animals, Humans, Neuralgia complications, Pruritus etiology
Abstract

Neuropathic itch is a pathological condition that is due to damage within the nervous system. This type of itch can be severe and unrelenting, which has a very negative impact on quality of life. Neuropathic itch is more common than generally appreciated because most types of neuropathic pain have a neuropathic itch counterpart. Unfortunately, much like neuropathic pain, there is a lack of effective treatments for neuropathic itch. Here, we consider the neural basis of itch and then describe how injuries within these neural circuits can lead to neuropathic itch in both animal models and human disease states.

Published
2018
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17. Semi-intact ex vivo approach to investigate spinal somatosensory circuits.

Author

Hachisuka J, Baumbauer KM, Omori Y, Snyder LM, Koerber HR, and Ross SE

Subjects
Animals, Mice, Nerve Net, Interneurons physiology, Neurophysiology methods, Sensation, Spinal Cord anatomy & histology, Spinal Cord physiology
Abstract

The somatosensory input that gives rise to the perceptions of pain, itch, cold and heat are initially integrated in the superficial dorsal horn of the spinal cord. Here, we describe a new approach to investigate these neural circuits in mouse. This semi-intact somatosensory preparation enables recording from spinal output neurons, while precisely controlling somatosensory input, and simultaneously manipulating specific populations of spinal interneurons. Our findings suggest that spinal interneurons show distinct temporal and spatial tuning properties. We also show that modality selectivity - mechanical, heat and cold - can be assessed in both retrogradely labeled spinoparabrachial projection neurons and genetically labeled spinal interneurons. Finally, we demonstrate that interneuron connectivity can be determined via optogenetic activation of specific interneuron subtypes. This new approach may facilitate key conceptual advances in our understanding of the spinal somatosensory circuits in health and disease., Competing Interests: The authors declare that no competing interests exist.

Published
2016
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19. Antioxidant Opuntia ficus-indica Extract Activates AHR-NRF2 Signaling and Upregulates Filaggrin and Loricrin Expression in Human Keratinocytes.

Author

Nakahara T, Mitoma C, Hashimoto-Hachiya A, Takahara M, Tsuji G, Uchi H, Yan X, Hachisuka J, Chiba T, Esaki H, Kido-Nakahara M, and Furue M

Subjects
Antioxidants pharmacology, Cells, Cultured, Filaggrin Proteins, Gene Expression drug effects, Gene Knockdown Techniques, Humans, Keratinocytes chemistry, Keratinocytes metabolism, NAD(P)H Dehydrogenase (Quinone) metabolism, NF-E2-Related Factor 2 deficiency, NF-E2-Related Factor 2 genetics, Plant Extracts pharmacology, Receptors, Aryl Hydrocarbon drug effects, Signal Transduction drug effects, Skin Diseases drug therapy, Intermediate Filament Proteins analysis, Keratinocytes drug effects, Membrane Proteins analysis, NF-E2-Related Factor 2 physiology, Opuntia chemistry, Receptors, Aryl Hydrocarbon metabolism
Abstract

Opuntia ficus-indica (OFI) is a cactus species widely used as an anti-inflammatory, antilipidemic, and hypoglycemic agent. It has been shown that OFI extract (OFIE) inhibits oxidative stress in animal models of diabetes and hepatic disease; however, its antioxidant mechanism remains largely unknown. In this study, we demonstrated that OFIE exhibited potent antioxidant activity through the activation of nuclear factor erythroid 2-related factor 2 (NRF2) and the downstream antioxidant enzyme, Nad(p)h: quinone oxidoreductase 1 (NQO1), which inhibited the generation of reactive oxygen species in keratinocytes challenged with tumor necrosis factor α or benzo[α]pyrene. The antioxidant capacity of OFIE was canceled in NRF2 knockdown keratinocytes. OFIE exerted this NRF2-NQO1 upregulation through activation of the aryl hydrocarbon receptor (AHR). Moreover, the ligation of AHR by OFIE upregulated the expression of epidermal barrier proteins: filaggrin and loricrin. OFIE also prevented TH2 cytokine-mediated downregulation of filaggrin and loricrin expression in an AHR-dependent manner because it was canceled in AHR knockdown keratinocytes. Antioxidant OFIE is a potent activator of AHR-NRF2-NQO1 signaling and may be beneficial in treating barrier-disrupted skin disorders.

Published
2015
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20. Keratinocytes can modulate and directly initiate nociceptive responses.

Author

Baumbauer KM, DeBerry JJ, Adelman PC, Miller RH, Hachisuka J, Lee KH, Ross SE, Koerber HR, Davis BM, and Albers KM

Subjects
Animals, Mice, Touch, Action Potentials, Epidermis physiology, Keratinocytes physiology, Nociceptive Pain, Sensory Receptor Cells physiology
Abstract

How thermal, mechanical and chemical stimuli applied to the skin are transduced into signals transmitted by peripheral neurons to the CNS is an area of intense study. Several studies indicate that transduction mechanisms are intrinsic to cutaneous neurons and that epidermal keratinocytes only modulate this transduction. Using mice expressing channelrhodopsin (ChR2) in keratinocytes we show that blue light activation of the epidermis alone can produce action potentials (APs) in multiple types of cutaneous sensory neurons including SA1, A-HTMR, CM, CH, CMC, CMH and CMHC fiber types. In loss of function studies, yellow light stimulation of keratinocytes that express halorhodopsin reduced AP generation in response to naturalistic stimuli. These findings support the idea that intrinsic sensory transduction mechanisms in epidermal keratinocytes can directly elicit AP firing in nociceptive as well as tactile sensory afferents and suggest a significantly expanded role for the epidermis in sensory processing.

Published
2015
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21. STAT3-dependent reactive astrogliosis in the spinal dorsal horn underlies chronic itch.

Author

Shiratori-Hayashi M, Koga K, Tozaki-Saitoh H, Kohro Y, Toyonaga H, Yamaguchi C, Hasegawa A, Nakahara T, Hachisuka J, Akira S, Okano H, Furue M, Inoue K, and Tsuda M

Subjects
Acute-Phase Proteins physiology, Animals, Astrocytes physiology, Chronic Disease, Gastrin-Releasing Peptide physiology, Lipocalin-2, Lipocalins physiology, Male, Mice, Mice, Inbred C57BL, Oncogene Proteins physiology, Pruritus etiology, STAT3 Transcription Factor physiology, Spinal Cord Dorsal Horn pathology
Abstract

Chronic itch is an intractable symptom of inflammatory skin diseases, such as atopic and contact dermatitis. Recent studies have revealed neuronal pathways selective for itch, but the mechanisms by which itch turns into a pathological chronic state are poorly understood. Using mouse models of atopic and contact dermatitis, we demonstrate a long-term reactive state of astrocytes in the dorsal horn of the spinal segments that corresponds to lesioned, itchy skin. We found that reactive astrogliosis depended on the activation of signal transducer and activator of transcription 3 (STAT3). Conditional disruption of astrocytic STAT3 suppressed chronic itch, and pharmacological inhibition of spinal STAT3 ameliorated the fully developed chronic itch. Mice with atopic dermatitis exhibited an increase in scratching elicited by intrathecal administration of the itch-inducer gastrin-releasing peptide (GRP), and this enhancement was normalized by suppressing STAT3-mediated reactive astrogliosis. Moreover, we identified lipocalin-2 (LCN2) as an astrocytic STAT3-dependent upregulated factor that was crucial for chronic itch, and we demonstrated that intrathecal administration of LCN2 to normal mice increased spinal GRP-evoked scratching. Our findings indicate that STAT3-dependent reactive astrocytes act as critical amplifiers of itching through a mechanism involving the enhancement of spinal itch signals by LCN2, thereby providing a previously unrecognized target for treating chronic itch.

Published
2015
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23. Dynorphin acts as a neuromodulator to inhibit itch in the dorsal horn of the spinal cord.

Author

Kardon AP, Polgár E, Hachisuka J, Snyder LM, Cameron D, Savage S, Cai X, Karnup S, Fan CR, Hemenway GM, Bernard CS, Schwartz ES, Nagase H, Schwarzer C, Watanabe M, Furuta T, Kaneko T, Koerber HR, Todd AJ, and Ross SE

Subjects
Analgesics, Opioid pharmacology, Analgesics, Opioid therapeutic use, Animals, Capsaicin pharmacology, Dynorphins physiology, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Octreotide pharmacology, Organ Culture Techniques, Receptors, Opioid, kappa agonists, Spinal Cord metabolism, Dynorphins metabolism, Interneurons metabolism, Neural Inhibition physiology, Posterior Horn Cells metabolism, Pruritus metabolism, Pruritus prevention & control
Abstract

Menthol and other counterstimuli relieve itch, resulting in an antipruritic state that persists for minutes to hours. However, the neural basis for this effect is unclear, and the underlying neuromodulatory mechanisms are unknown. Previous studies revealed that Bhlhb5(-/-) mice, which lack a specific population of spinal inhibitory interneurons (B5-I neurons), develop pathological itch. Here we characterize B5-I neurons and show that they belong to a neurochemically distinct subset. We provide cause-and-effect evidence that B5-I neurons inhibit itch and show that dynorphin, which is released from B5-I neurons, is a key neuromodulator of pruritus. Finally, we show that B5-I neurons are innervated by menthol-, capsaicin-, and mustard oil-responsive sensory neurons and are required for the inhibition of itch by menthol. These findings provide a cellular basis for the inhibition of itch by chemical counterstimuli and suggest that kappa opioids may be a broadly effective therapy for pathological itch., (Copyright © 2014 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2014
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24. Aberrant expression of S100A6 and matrix metalloproteinase 9, but not S100A2, S100A4, and S100A7, is associated with epidermal carcinogenesis.

Author

Zhu L, Kohda F, Nakahara T, Chiba T, Tsuji G, Hachisuka J, Ito T, Tu Y, Moroi Y, Uchi H, and Furue M

Subjects
Epidermis metabolism, Humans, Retrospective Studies, S100 Calcium Binding Protein A6, Carcinogenesis metabolism, Carcinoma, Squamous Cell metabolism, Cell Cycle Proteins metabolism, Matrix Metalloproteinase 9 metabolism, S100 Proteins metabolism, Skin Neoplasms metabolism
Abstract

Background: S100 proteins belong to a family of calcium-binding proteins that regulate cell proliferation and differentiation. Despite our growing knowledge about the biology of S100 proteins in some human cancers, little is known about the expression of S100 family members in epidermal tumors and their clinical significance., Objective: To determine the expression of S100A2, S100A4, S100A6, S100A7, as well as matrix metalloproteinases 9 (MMP9) in a spectrum of epidermal tumors with benign and malignant characteristics., Methods: Immunohistological staining was performed for S100A2, S100A4, S100A6, S100A7, and MMP9 in 101 cases of various types of epidermal tumors, viz., squamous cell carcinoma (SCC), Bowen's disease (BD), actinic keratosis (AK), basal cell carcinoma (BCC), keratoacanthoma (KA), and seborrheic keratosis (SK). Thirteen specimens of normal skin (NS) served as control., Results: S100A2, S100A6, and S100A7 positive immunostaining was variably observed in different epidermal tumors. S100A4 staining was not observed in any epidermal tumors, but was clearly visible in dendritic cells. MMP9 immunostaining was positive only in 22/26 (84.62%) of SCC and 2/15 (13.33%) of BD cases. Expression of S100A2, S100A6, and S100A7 was increased in tumor cells compared to NS. However, only S100A6 expression was significantly associated with malignant transformation of epidermal tumors. Moreover, S100A6 expression was correlated with MMP9 expression in metastatic SCC., Conclusions: Epidermal tumors show increased expression of S100A2 and S100A7 proteins. S100A4 may be a useful and distinct marker for epidermal dendritic cells. Expression of S100A6 and MMP9 in combination is associated with the development of SCC., (Copyright © 2013 Japanese Society for Investigative Dermatology. Published by Elsevier Ireland Ltd. All rights reserved.)

Published
2013
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26. Congenital benign mesenchymoma on the palm.

Author

Kudo K, Nakahara T, Hachisuka J, Masuda T, Miake S, Moroi Y, Kiryu H, and Furue M

Subjects
Humans, Infant, Male, Mesenchymoma congenital, Mesenchymoma surgery, Skin Neoplasms congenital, Skin Neoplasms surgery, Hand pathology, Mesenchymoma pathology, Skin Neoplasms pathology
Published
2012
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27. Combination cryosurgery with hyperthermia in the management of skin metastasis from breast cancer: A case report.

Author

Hachisuka J, Doi K, and Furue M

Abstract

Introduction: Skin metastases may impair the quality of life due to physical appearance, odour, and bleeding., Presentation of Case: A 70-year-old woman presented with two enlarging nodules (measuring 12 cm and 3 cm in diameter) consistent with metastatic breast cancer in the left subclavicular area. The larger tumour did not respond to initial cryosurgery. Therefore we added hyperthermia using a disposable body warmer. In addition, the cryosurgery technique was modified to freeze deeper tissue. The entire tumour was covered with dry cotton, to which liquid nitrogen was applied. Twenty weeks later, the tumour became nearly flat and the patient noted improved activity in her daily life., Discussion: Combination treatment with sufficient freezing is important for controlling the tumour, while hyperthermia may accelerate the antitumor effects of cryosurgery., Conclusion: [corrected] This treatment provides an alternative for unresectable breast cancer skin metastases resistant to chemotherapy and radiotherapy.

Published
2012
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28. Successful treatment of epidermal growth factor receptor inhibitor-induced periungual inflammation with adapalene.

Author

Hachisuka J, Doi K, Moroi Y, and Furue M

Abstract

Epidermal growth factor receptor (EGFR) inhibitors are increasingly used for cancer treatment, but commonly carry dermatologic side effects. Periungual inflammation is a particularly painful condition that additionally worsens quality of life. In this paper, we report 3 cases of successful treatment of periungual inflammation induced by 3 different EGFR inhibitors (gefitinib, erlotinib, and cetuximab) with topically applied adapalene.

Published
2011
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29. Effect of adapalene on cetuximab-induced painful periungual inflammation.

Author

Hachisuka J, Yunotani S, Shidahara S, Moroi Y, and Furue M

Subjects
Adapalene, Antibodies, Monoclonal, Humanized, Cetuximab, Humans, Male, Middle Aged, Anti-Inflammatory Agents, Non-Steroidal therapeutic use, Antibodies, Monoclonal adverse effects, Inflammation chemically induced, Inflammation drug therapy, Nail Diseases chemically induced, Naphthalenes therapeutic use
Published
2011
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30. Are lifetime prevalence of impetigo, molluscum and herpes infection really increased in children having atopic dermatitis?

Author

Hayashida S, Furusho N, Uchi H, Miyazaki S, Eiraku K, Gondo C, Tsuji G, Hachisuka J, Fukagawa S, Kido M, Nakahara T, Moroi Y, Hayashi J, Hagihara A, and Furue M

Subjects
Child, Child, Preschool, Cross-Sectional Studies, Female, Humans, Infant, Japan epidemiology, Male, Prevalence, Risk Factors, Dermatitis, Atopic complications, Herpesviridae Infections complications, Herpesviridae Infections epidemiology, Impetigo complications, Impetigo epidemiology, Molluscum Contagiosum complications, Molluscum Contagiosum epidemiology
Abstract

Background: Cutaneous infections such as impetigo contagiosum (IC), molluscum contagiosum (MC) and herpes virus infection (HI) appear to be associated with atopic dermatitis (AD), but there are no reports of concrete epidemiological evidence., Objective: We evaluated the association of childhood AD with these infections by conducting a population-based cross-sectional study., Methods: Enrolled in this study were 1117 children aged 0-6 years old attending nursery schools in Ishigaki City, Okinawa Prefecture, Japan. Physical examination was performed by dermatologists, and a questionnaire was completed on each child's history of allergic diseases including AD, asthma, allergic rhinitis and egg allergy, and that of skin infections including IC, MC and HI, as well as familial history of AD., Results: In 913 children (AD; 132), a history of IC, MC or HI was observed in 45.1%, 19.7%, and 2.5%, respectively. Multiple logistic regression analysis revealed that the odds of having a history of IC were 1.8 times higher in AD children than in non-AD children. Meanwhile, a history of MC was significantly correlated to the male gender, but not to a personal history of AD. As for HI, we found no correlated factors in this study., Conclusions: The lifetime prevalence of IC was indeed higher in young children with a history of AD., (Copyright © 2010 Japanese Society for Investigative Dermatology. Published by Elsevier Ireland Ltd. All rights reserved.)

Published
2010
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31. Responsiveness of C neurons in rat dorsal root ganglion to 5-hydroxytryptamine-induced pruritic stimuli in vivo.

Author

Hachisuka J, Furue H, Furue M, and Yoshimura M

Subjects
Action Potentials drug effects, Administration, Topical, Animals, Behavior, Animal drug effects, Electrophysiological Phenomena, Male, Pain chemically induced, Pain physiopathology, Patch-Clamp Techniques, Physical Stimulation, Pruritus psychology, Rats, Rats, Sprague-Dawley, Ganglia, Spinal drug effects, Pruritus chemically induced, Pruritus physiopathology, Sensory Receptor Cells drug effects, Serotonin administration & dosage
Abstract

Itching is a common symptom in dermatologic diseases and causes restless scratching of the skin, which aggravates the condition. The mechanism of the itch sensation, however, is enigmatic. The present study included behavioral tests and electrophysiological recordings from rat dorsal root ganglion (DRG) neurons in vivo to analyze the response to pruritic stimuli induced by topical application of 5-hydroxytryptamine (5-HT) to the skin. Topically applied 5-HT to the rostral back evoked scratching, whereas application of the vehicle did not. Following subcutaneous injection of the opioid receptor antagonist naloxone, the number of scratches decreased, suggesting that the scratching was preferentially mediated by itch but not pain sensation. To elucidate the firing properties of DRG neurons in response to topically applied 5-HT, intracellular recordings were made from DRG neurons in vivo. None of the Abeta and Adelta neurons responded to 5-HT; in contrast, 25 of 91 C neurons (27%) exhibited repetitive firing in response to 5-HT, which could be classified into two firing patterns: one was a transient type, characterized by low firing frequency that decreased within 5 min; the other was a long-lasting type, having high firing frequency that continued increasing after 5 min. The time course of the firing pattern of long-lasting C neurons was comparable to the scratching behavior. Intriguingly, the long-lasting-type neurons had a significantly smaller fast afterhyperpolarization than that of the 5-HT-insensitive neurons. These observations suggest that the long-lasting-firing C neurons in rat DRG sensitive to 5-HT are responsible for conveying pruritic information to the spinal cord.

Published
2010
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32. Severity of disease, rather than xerosis, correlates with pruritus in patients with atopic dermatitis.

Author

Hachisuka J, Takeuchi S, Kido M, Fukiwake N, and Furue M

Subjects
Adolescent, Adult, Child, Dermatitis, Atopic pathology, Female, Humans, Ichthyosis pathology, Male, Middle Aged, Pruritus pathology, Water metabolism, Young Adult, Dermatitis, Atopic physiopathology, Ichthyosis physiopathology, Pruritus physiopathology, Severity of Illness Index
Abstract

Background: Atopic dermatitis (AD) is a chronic, relapsing skin disease characterized by xerosis and pruritus. As pruritus is an unpleasant sensation and the associated scratching aggravates the skin eruption considerably, it is important to control this symptom when treating AD. Dry skin is generally considered to be a potential cause of pruritus in xerotic skin diseases, but a clear correlation between pruritus and atopic xerosis has not been demonstrated. Aim To examine the contribution of atopic xerosis to the development of pruritus in AD., Methods: Twenty-two patients with AD (12 males and 10 females; mean age, 27.5 years) were examined. Xerosis and the severity of disease were evaluated using the Objective Severity Assessment of Atopic Dermatitis (OSAAD) and the SCORing Atopic Dermatitis (SCORAD) index, respectively. A modified SCORAD index was calculated by removing the symptoms potentially associated with pruritus (intensity of itching and insomnia) from the standard SCORAD index. Pruritus was evaluated using both a visual analog scale and the Verbal Itch Score., Results: The severity of AD (modified SCORAD index) correlated better than atopic xerosis (OSAAD score) with both pruritus scores, possibly indicating that the use of appropriate anti-inflammatory agents may be helpful in controlling pruritus as well as skin eruption in AD., Conclusion: Our data suggest that the severity of disease (or skin inflammation) provides a greater contribution than xerosis to the development of pruritus in AD.

Published
2009
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33. Enhancement of Ca2+-induced Ca2+ release by cyclic ADP-ribose in frog motor nerve terminals.

Author

Hachisuka J, Soga-Sakakibara S, Kubota M, Narita K, and Kuba K

Subjects
Animals, Cyclic ADP-Ribose pharmacology, In Vitro Techniques, Motor Neurons drug effects, Neuromuscular Junction cytology, Ranidae, Ryanodine metabolism, Time Factors, Calcium metabolism, Cyclic ADP-Ribose analogs & derivatives, Motor Neurons cytology, Presynaptic Terminals drug effects, Presynaptic Terminals metabolism
Abstract

Ca2+-induced Ca2+ release (CICR) occurs via activation of ryanodine receptors (RyRs) in frog motor nerve terminals after RyRs are primed for activation by repetitive Ca2+ entries, thereby contributing to synaptic plasticity. To clarify how the mechanism of CICR becomes activable by repetitive Ca2+ entries, we studied effects of a RyR modulator, cyclic ADP-ribose (cADPr), on CICR by Ca2+ imaging techniques. Use-dependent binding of fluorescent ryanodine and its blockade by ryanodine revealed the existence of RyRs in the terminals. Repetition of tetani applied to the nerve produced repetitive rises in intracellular Ca2+ ([Ca2+]i) in the terminals. The amplitude of each rise slowly waxed and waned during the course of the stimulation. These slow rises and decays were blocked by ryanodine, indicating the priming, activation and inactivation of CICR. Uncaging of caged-cADPr loaded in the terminals increased the amplitude of short tetanus-induced rises in [Ca2+]i and the amplitude, time to peak and half decay time of the slow waxing and waning rises in [Ca2+]i evoked by repetitive tetani. A cADPr blocker, 8-amino-cADPr, loaded in the terminals decreased the slow waxing and waning component of rises and blocked all the actions of exogenous cADPr. It is concluded that cADPr enhances the priming and activation of CICR. The four-state model for RyRs suggests that cADPr inhibits the inactivation of CICR and increases the activation efficacy of RyR.

Published
2007
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34. A case of Carney complex.

Author

Hachisuka J, Ichikawa M, Moroi Y, Urabe K, and Furue M

Subjects
Adult, Buttocks, Heart Neoplasms pathology, Heart Neoplasms surgery, Humans, Lip Diseases, Male, Myxoma surgery, Myxoma pathology, Neoplastic Syndromes, Hereditary pathology, Pigmentation Disorders pathology, Skin Neoplasms pathology
Published
2006
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