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2. Evolutionary differentiation of androgen receptor is responsible for sexual characteristic development in a teleost fish

Author

Yukiko Ogino, Satoshi Ansai, Eiji Watanabe, Masaki Yasugi, Yukitoshi Katayama, Hirotaka Sakamoto, Keigo Okamoto, Kataaki Okubo, Yasuhiro Yamamoto, Ikuyo Hara, Touko Yamazaki, Ai Kato, Yasuhiro Kamei, Kiyoshi Naruse, Kohei Ohta, Hajime Ogino, Tatsuya Sakamoto, Shinichi Miyagawa, Tomomi Sato, Gen Yamada, Michael E. Baker, and Taisen Iguchi

Subjects
Science
Abstract

How has the genome duplication impacted the diversification of sexual characteristics in the teleost lineage? This study shows that androgen receptor ohnologs in medaka appear to have diverged in their roles for regulating morphological and behavioural sexual characteristics after loss from an ancestral role in spermatogenesis.

Published
2023
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3. Function of gastrin-releasing peptide receptors in ocular itch transmission in the mouse trigeminal sensory system

Author

Keiko Takanami, Masaya Kuroiwa, Ren Ishikawa, Yuji Imai, Akane Oishi, Midori Hashino, Yasushi Shimoda, Hirotaka Sakamoto, and Tsuyoshi Koide

Subjects
gastrin-releasing peptide receptors, ocular itch, trigeminal sensory system, neuromedin C, histamine, chloroquine, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

The prevalence of allergic conjunctivitis in itchy eyes has increased constantly worldwide owing to environmental pollution. Currently, anti-allergic and antihistaminic eye drops are used; however, there are many unknown aspects about the neural circuits that transmit itchy eyes. We focused on the gastrin-releasing peptide (GRP) and GRP receptor (GRPR), which are reportedly involved in itch transmission in the spinal somatosensory system, to determine whether the GRP system is involved in itch neurotransmission of the eyes in the trigeminal sensory system. First, the instillation of itch mediators, such as histamine (His) and non-histaminergic itch mediator chloroquine (CQ), exhibited concentration-dependent high levels of eye scratching behavior, with a significant sex differences observed in the case of His. Histological analysis revealed that His and CQ significantly increased the neural activity of GRPR-expressing neurons in the caudal part of the spinal trigeminal nucleus of the medulla oblongata in GRPR transgenic mice. We administered a GRPR antagonist or bombesin-saporin to ablate GRPR-expressing neurons, followed by His or CQ instillation, and observed a decrease in CQ-induced eye-scratching behavior in the toxin experiments. Intracisternal administration of neuromedin C (NMC), a GRPR agonist, resulted in dose-dependent excessive facial scratching behavior, despite the absence of an itch stimulus on the face. To our knowledge, this is the first study to demonstrate that non-histaminergic itchy eyes were transmitted centrally via GRPR-expressing neurons in the trigeminal sensory system, and that NMC in the medulla oblongata evoked facial itching.

Published
2023
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4. Mating experiences with the same partner enhanced mating activities of naïve male medaka fish

Author

Masahiro Daimon, Takafumi Katsumura, Hirotaka Sakamoto, Satoshi Ansai, and Hideaki Takeuchi

Subjects
Medicine, Science
Abstract

Abstract Mating experience shapes male mating behavior across species, from insects, fish, and birds, to rodents. Here, we investigated the effect of multiple mating experiences on male mating behavior in “naïve” (defined as sexually inexperienced) male medaka fish. The latency to mate with the same female partner significantly decreased after the second encounter, whereas when the partner was changed, the latency to mate was not decreased. These findings suggest that mating experiences enhanced the mating activity of naïve males for the familiar female, but not for an unfamiliar female. In contrast, the mating experiences of “experienced” (defined as those having mated > 7 times) males with the same partner did not influence their latency to mate. Furthermore, we identified 10 highly and differentially expressed genes in the brains of the naïve males after the mating experience and revealed 3 genes that are required for a functional cascade of the thyroid hormone system. Together, these findings suggest that the mating experience of naïve male medaka fish influences their mating behaviors, with neural changes triggered by thyroid hormone activation in the brain.

Published
2022
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5. Nanobody-based RFP-dependent Cre recombinase for selective anterograde tracing in RFP-expressing transgenic animals

Author

Ayumu Inutsuka, Sho Maejima, Hiroyuki Mizoguchi, Ryosuke Kaneko, Rei Nomura, Keiko Takanami, Hirotaka Sakamoto, and Tatsushi Onaka

Subjects
Biology (General), QH301-705.5
Abstract

A Cre recombinase dependent on red fluorescent protein (RFP) is generated, which expands the repertory of nanobody-based genetic tools by enabling selective targeting of RFP-dependent gene expression in the mouse and rat brain.

Published
2022
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6. Neuronal pentraxin 2 is required for facilitating excitatory synaptic inputs onto spinal neurons involved in pruriceptive transmission in a model of chronic itch

Author

Kensho Kanehisa, Keisuke Koga, Sho Maejima, Yuto Shiraishi, Konatsu Asai, Miho Shiratori-Hayashi, Mei-Fang Xiao, Hirotaka Sakamoto, Paul F. Worley, and Makoto Tsuda

Subjects
Science
Abstract

Gastrin-releasing peptide receptors (GRPR) are involved in pruriceptive behaviours. Here the authors show that neuronal pentraxin 2 upregulated in primary sensory neurons in chronic itch models is required for facilitating excitatory synaptic inputs onto GRPR expressing spinal neurons.

Published
2022
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7. The gastrin-releasing peptide/bombesin system revisited by a reverse-evolutionary study considering Xenopus

Author

Asuka Hirooka, Mayuko Hamada, Daiki Fujiyama, Keiko Takanami, Yasuhisa Kobayashi, Takumi Oti, Yukitoshi Katayama, Tatsuya Sakamoto, and Hirotaka Sakamoto

Subjects
Medicine, Science
Abstract

Abstract Bombesin is a putative antibacterial peptide isolated from the skin of the frog, Bombina bombina. Two related (bombesin-like) peptides, gastrin-releasing peptide (GRP) and neuromedin B (NMB) have been found in mammals. The history of GRP/bombesin discovery has caused little attention to be paid to the evolutionary relationship of GRP/bombesin and their receptors in vertebrates. We have classified the peptides and their receptors from the phylogenetic viewpoint using a newly established genetic database and bioinformatics. Here we show, by using a clawed frog (Xenopus tropicalis), that GRP is not a mammalian counterpart of bombesin and also that, whereas the GRP system is widely conserved among vertebrates, the NMB/bombesin system has diversified in certain lineages, in particular in frog species. To understand the derivation of GRP system in the ancestor of mammals, we have focused on the GRP system in Xenopus. Gene expression analyses combined with immunohistochemistry and Western blotting experiments demonstrated that GRP peptides and their receptors are distributed in the brain and stomach of Xenopus. We conclude that GRP peptides and their receptors have evolved from ancestral (GRP-like peptide) homologues to play multiple roles in both the gut and the brain as one of the ‘gut-brain peptide’ systems.

Published
2021
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8. Systemic effects of oxytocin on male sexual activity via the spinal ejaculation generator in rats

Author

Takumi Oti, Tatsuya Sakamoto, and Hirotaka Sakamoto

Subjects
spinal cord, oxytocin, gastrin-releasing peptide, male sexual activity, spinal ejaculation generator, hypothalamus, systemic treatment, rat, Biology (General), QH301-705.5
Abstract

Oxytocin is produced in the hypothalamus and stimulates uterine contraction and milk ejection. While many people consider oxytocin to be a female hormone, it is reported that, in men, the plasma oxytocin level increases markedly after ejaculation. However, this aspect of oxytocin physiology is poorly understood. The spinal ejaculation generator (SEG), which expresses the neuropeptide, gastrin-releasing peptide (GRP), can trigger ejaculation in rats. Therefore, we focused on systemic effects of oxytocin on the GRP/SEG neuron system in the lumbar spinal cord controlling sexual activity in male rats. We found that systemic administration of oxytocin significantly shortened the latency to the first mount, intromission and ejaculation during male copulatory behavior. In addition, the local oxytocin level in the lumbar cord was significantly higher in males than in females. Histological analysis showed that oxytocin-binding is apparent in spinal GRP/SEG neurons. We therefore conclude that oxytocin influences male sexual activity via the SEG.

Published
2021
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9. Behavioural osmoregulation during land invasion in fish: Prandial drinking and wetting of the dry skin

Author

Yukitoshi Katayama, Takehiro Tsukada, Susumu Hyodo, Hirotaka Sakamoto, and Tatsuya Sakamoto

Subjects
Medicine, Science
Abstract

Osmoregulatory behaviours should have evolutionarily modified for terrestrialisation of vertebrates. In mammals, sensations of buccal food and drying have immediate effects on postprandial thirst to prevent future systemic dehydration, and is thereby considered to be ‘anticipatory thirst’. However, it remains unclear whether such an anticipatory response has been acquired in the non-tetrapod lineage. Using the mudskipper goby (Periophthalmus modestus) as a semi-terrestrial ray-finned fish, we herein investigated postprandial drinking and other unique features like full-body ‘rolling’ over on the back although these behaviours had not been considered to have osmoregulatory functions. In our observations on tidal flats, mudskippers migrated into water areas within a minute after terrestrial eating, and exhibited rolling behaviour with accompanying pectoral-fin movements. In aquarium experiments, frequency of migration into a water area for drinking increased within a few minutes after eating onset, without systemic dehydration. During their low humidity exposure, frequency of the rolling behaviour and pectoral-fin movements increased by more than five times to moisten the skin before systemic dehydration. These findings suggest anticipatory responses which arise from oral/gastrointestinal and cutaneous sensation in the goby. These sensation and motivation seem to have evolved in distantly related species in order to solve osmoregulatory challenges during terrestrialisation.

Published
2022

10. Degradation of Mutant Protein Aggregates within the Endoplasmic Reticulum of Vasopressin Neurons

Author

Takashi Miyata, Daisuke Hagiwara, Yuichi Hodai, Tsutomu Miwata, Yohei Kawaguchi, Junki Kurimoto, Hajime Ozaki, Kazuki Mitsumoto, Hiroshi Takagi, Hidetaka Suga, Tomoko Kobayashi, Mariko Sugiyama, Takeshi Onoue, Yoshihiro Ito, Shintaro Iwama, Ryoichi Banno, Mami Matsumoto, Natsuko Kawakami, Nobuhiko Ohno, Hirotaka Sakamoto, and Hiroshi Arima

Subjects
neuroscience, cell biology, technical aspects of cell biology, Science
Abstract

Summary: Misfolded or unfolded proteins in the ER are said to be degraded only after translocation or isolation from the ER. Here, we describe a mechanism by which mutant proteins are degraded within the ER. Aggregates of mutant arginine vasopressin (AVP) precursor were confined to ER-associated compartments (ERACs) connected to the ER in AVP neurons of a mouse model of familial neurohypophysial diabetes insipidus. The ERACs were enclosed by membranes, an ER chaperone and marker protein of phagophores and autophagosomes were expressed around the aggregates, and lysosomes fused with the ERACs. Moreover, lysosome-related molecules were present within the ERACs, and aggregate degradation within the ERACs was dependent on autophagic-lysosomal activity. Thus, we demonstrate that protein aggregates can be degraded by autophagic-lysosomal machinery within specialized compartments of the ER.

Published
2020
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11. Three-dimensional visualization of multiple synapses in thick sections using high-voltage electron microscopy in the rat spinal cord

Author

Keita Satoh, Keiko Takanami, Kazuyoshi Murata, Mitsuhiro Kawata, Tatsuya Sakamoto, and Hirotaka Sakamoto

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390
Abstract

This data article contains complementary figure and movies (Supplementary Movies 1–3) related to the research article entitled, “Effective synaptome analysis of itch-mediating neurons in the spinal cord: a novel immunohistochemical methodology using high-voltage electron microscopy” [7]. It is important to show the synaptic connections at the ultrastructural level to understand the neural circuit, which requires the three-dimensional (3-D) analyses in the electron microscopy. Here, we applied a new sample preparation method, a high-contrast en bloc staining according to the protocol of the National Center for Microscopy and Imaging Research (NCMIR), University of California, San Diego, CA, USA to high-voltage electron microscopy (HVEM) tomography in order to examine the 3-D chemical neuroanatomy of the rat spinal cord. Pre-embedding immunoelectron microscopy was used in this study. HVEM has an excellent potential to directly visualize the ultrastructures in semi-thin sections (~5 μm thick), and we have successfully visualized many itch-mediating synaptic connections and neural networks in the spinal cord using “HVEM tomography”. Moreover, the methodology used in this study is simple and can be applied in multiple ways. This is an important contribution to ultrastructural investigations of the central nervous system in the present post-genomic age.

Published
2015
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12. Aldosterone-Sensitive Nucleus Tractus Solitarius Neurons Regulate Sensitivity of the Baroreceptor Reflex in High Sodium–Loaded Rats

Author

Tomoharu Masuda, Yasutoshi Hirabara, Yusuke Nakamura, Akiko Chishaki, Mai Tsuruhisa, Masayuki Miyakawa, Kenji Honda, Ryo Saito, Hirotaka Sakamoto, Mitsuhiro Kawata, and Yukio Takano

Subjects
Therapeutics. Pharmacology, RM1-950
Abstract

We examined the role of aldosterone-sensitive neurons in the nucleus tractus solitarius (NTS) in the arterial baroreceptor reflex (baroreflex) function. Baroreflex sensitivity was induced by phenylephrine in high sodium–loaded rats and was significantly reduced. This baroreflex sensitivity was reversed by microinjection of the mineralocorticoid receptor (MR) antagonist eplerenone into the NTS. 11β-Hydroxysteroid dehydrogenase type 2 neurons and MR were also identified in the NTS. These data suggest that the aldosterone-sensitive neurons in the NTS may have an important role in baroreflex function. Keywords:: aldosterone-sensitive nucleus tractus solitarius (NTS) neuron, arterial baroreceptor reflex, mineralocorticoid (MR) antagonist eplerenone

Published
2010
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13. Neurohypophysial Hormones Regulate Amphibious Behaviour in the Mudskipper Goby.

Author

Tatsuya Sakamoto, Yudai Nishiyama, Aoi Ikeda, Hideya Takahashi, Susumu Hyodo, Nao Kagawa, and Hirotaka Sakamoto

Subjects
Medicine, Science
Abstract

The neurohypophysial hormones, arginine vasotocin and isotocin, regulate both hydromineral balance and social behaviors in fish. In the amphibious mudskipper, Periophthalmus modestus, we previously found arginine-vasotocin-specific regulation of aggressive behavior, including migration of the submissive subordinate into water. This migration also implies the need for adaptation to dehydration. Here, we examined the effects of arginine vasotocin and isotocin administration on the amphibious behavior of individual mudskippers in vivo. The mudskippers remained in the water for an increased period of time after 1-8 h of intracerebroventricular (ICV) injection with 500 pg/g arginine vasotocin or isotocin. The 'frequency of migration' was decreased after ICV injection of arginine vasotocin or isotocin, reflecting a tendency to remain in the water. ICV injections of isotocin receptor antagonist with arginine vasotocin or isotocin inhibited all of these hormonal effects. In animals kept out of water, mRNA expression of brain arginine vasotocin and isotocin precursors increased 3- and 1.5-fold, respectively. Given the relatively wide distribution of arginine vasotocin fibres throughout the mudskipper brain, induction of arginine vasotocin and isotocin under terrestrial conditions may be involved also in the preference for an aquatic habitat as ligands for brain isotocin receptors.

Published
2015
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14. Stress affects a gastrin-releasing peptide system in the spinal cord that mediates sexual function: implications for psychogenic erectile dysfunction.

Author

Hirotaka Sakamoto, Ken-Ichi Matsuda, Damian G Zuloaga, Nobuko Nishiura, Keiko Takanami, Cynthia L Jordan, S Marc Breedlove, and Mitsuhiro Kawata

Subjects
Medicine, Science
Abstract

Many men suffering from stress, including post-traumatic stress disorder (PTSD), report sexual dysfunction, which is traditionally treated via psychological counseling. Recently, we identified a gastrin-releasing peptide (GRP) system in the lumbar spinal cord that is a primary mediator for male reproductive functions.To ask whether an acute severe stress could alter the male specific GRP system, we used a single-prolonged stress (SPS), a putative rat model for PTSD in the present study. Exposure of SPS to male rats decreases both the local content and axonal distribution of GRP in the lower lumbar spinal cord and results in an attenuation of penile reflexes in vivo. Remarkably, pharmacological stimulation of GRP receptors restores penile reflexes in SPS-exposed males, and induces spontaneous ejaculation in a dose-dependent manner. Furthermore, although the level of plasma testosterone is normal 7 days after SPS exposure, we found a significant decrease in the expression of androgen receptor protein in this spinal center.We conclude that the spinal GRP system appears to be a stress-vulnerable center for male reproductive functions, which may provide new insight into a clinical target for the treatment of erectile dysfunction triggered by stress and psychiatric disorders.

Published
2009
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15. Footedness for scratching itchy eyes in rodents

Author

Yukitoshi Katayama, Ayane Miura, Tatsuya Sakamoto, Keiko Takanami, and Hirotaka Sakamoto

Subjects
General Immunology and Microbiology, footedness, itchy eyes, gastrin-releasing peptide receptor, Pruritus, General Medicine, Eye, General Biochemistry, Genetics and Molecular Biology, Functional Laterality, Rats, Receptors, Bombesin, Animals, General Agricultural and Biological Sciences, General Environmental Science, Histamine
Abstract

The neural bases of itchy eye transmission remain unclear compared with those involved in body itch. Here, we show in rodents that the gastrin-releasing peptide receptor (GRPR) of the trigeminal sensory system is involved in the transmission of itchy eyes. Interestingly, we further demonstrate a difference in scratching behaviour between the left and right hindfeet in rodents; histamine instillation into the conjunctival sac of both eyes revealed right-foot biased laterality in the scratching movements. Unilateral histamine instillation specifically induced neural activation in the ipsilateral sensory pathway, with no significant difference between the activations following left- and right-eye instillations. Thus, the behavioural laterality is presumably due to right-foot preference in rodents. Genetically modified rats with specific depletion of Grpr- expressing neurons in the trigeminal sensory nucleus caudalis of the medulla oblongata exhibited fewer and shorter histamine-induced scratching movements than controls and eliminated the footedness. These results taken together indicate that the Grpr -expressing neurons are required for the transmission of itch sensation from the eyes, but that foot preference is generated centrally. These findings could open up a new field of research on the mechanisms of the laterality in vertebrates and also offer new potential therapeutic approaches to refractory pruritic eye disorders.

Published
2023

16. Characterization of the expression of gastrin‐releasing peptide and its receptor in the trigeminal and spinal somatosensory systems of Japanese macaque monkeys: Insight into humans

Author

Keiko Takanami, Takumi Oti, Yasuhisa Kobayashi, Koki Hasegawa, Takashi Ito, Naoaki Tsutsui, Yasumasa Ueda, Earl Carstens, Tatsuya Sakamoto, and Hirotaka Sakamoto

Subjects
DNA, Complementary, gastrin-releasing peptide receptor, primates, 1.1 Normal biological development and functioning, Medical Physiology, Neurodegenerative, Ligands, gastrin-releasing peptide, Macaca fuscata, Underpinning research, Complementary, Receptors, Animals, Humans, itch, ligand derivative stain, Neurology & Neurosurgery, Pruritus, General Neuroscience, Neurosciences, Sense Organs, DNA, macaque monkey, Receptors, Bombesin, Gastrin-Releasing Peptide, trigeminal sensory system, Bombesin, Zoology, Biotechnology
Abstract

Gastrin-releasing peptide (GRP) and its receptor (GRPR) have been identified as itch mediators in the spinal and trigeminal somatosensory systems in rodents. In primates, there are few reports of GRP/GRPR expression or function in the spinal sensory system and virtually nothing is known in the trigeminal system. The aim of the present study was to characterize GRP and GRPR in the trigeminal and spinal somatosensory system of Japanese macaque monkeys (Macaca fuscata). cDNA encoding GRP was isolated from the macaque dorsal root ganglion (DRG) and exhibited an amino acid sequence that was highly conserved among mammals and especially in primates. Immunohistochemical analysis demonstrated that GRP was expressed mainly in the small-sized trigeminal ganglion and DRG in adult macaque monkeys. Densely stained GRP-immunoreactive (ir) fibers were observed in superficial layers of the spinal trigeminal nucleus caudalis (Sp5C) and the spinal cord. In contrast, GRP-ir fibers were rarely observed in the principal sensory trigeminal nucleus and oral and interpolar divisions of the spinal trigeminal nucleus. cDNA cloning, in situ hybridization, and Western blot revealed substantial expression of GRPR mRNA and GRPR protein in the macaque spinal dorsal horn and Sp5C. Our Western ligand blot and ligand derivative stain for GRPR revealed that GRP directly bound in the macaque Sp5C and spinal dorsal horn as reported in rodents. Finally, GRP-ir fibers were also detected in the human spinal dorsal horn. The spinal and trigeminal itch neural circuits labeled with GRP and GRPR appear to function also in primates.

Published
2022
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17. A spinal microglia population involved in remitting and relapsing neuropathic pain

Author

Keita Kohno, Ryoji Shirasaka, Kohei Yoshihara, Satsuki Mikuriya, Kaori Tanaka, Keiko Takanami, Kazuhide Inoue, Hirotaka Sakamoto, Yasuyuki Ohkawa, Takahiro Masuda, and Makoto Tsuda

Subjects
Male, Multidisciplinary, CD11 Antigens, Mice, Transgenic, Mice, Inbred C57BL, Luminescent Proteins, Mice, Bacterial Proteins, Spinal Cord, Hyperalgesia, Peripheral Nerve Injuries, Recurrence, Animals, Neuralgia, Female, Microglia, Chronic Pain
Abstract

Neuropathic pain is often caused by injury and diseases that affect the somatosensory system. Although pain development has been well studied, pain recovery mechanisms remain largely unknown. Here, we found that CD11c-expressing spinal microglia appear after the development of behavioral pain hypersensitivity following nerve injury. Nerve-injured mice with spinal CD11c + microglial depletion failed to recover spontaneously from this hypersensitivity. CD11c + microglia expressed insulin-like growth factor-1 (IGF1), and interference with IGF1 signaling recapitulated the impairment in pain recovery. In pain-recovered mice, the depletion of CD11c + microglia or the interruption of IGF1 signaling resulted in a relapse in pain hypersensitivity. Our findings reveal a mechanism for the remission and recurrence of neuropathic pain, providing potential targets for therapeutic strategies.

Published
2022
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19. Endolysosomal TPCs regulate social behavior by controlling oxytocin secretion

Author

Lora L. Martucci, Jean-Marie Launay, Natsuko Kawakami, Cécile Sicard, Nathalie Desvignes, Mbarka Dakouane-Giudicelli, Barbara Spix, Maude Têtu, Franck-Olivier Gilmaire, Sloane Paulcan, Jacques Callebert, Cyrille Vaillend, Franz Bracher, Christian Grimm, Philippe Fossier, Sabine de la Porte, Hirotaka Sakamoto, John Morris, Antony Galione, Sylvie Granon, and José-Manuel Cancela

Subjects
Multidisciplinary
Abstract

Oxytocin (OT) is a prominent regulator of many aspects of mammalian social behavior and stored in large dense-cored vesicles (LDCVs) in hypothalamic neurons. It is released in response to activity-dependent Ca 2+ influx, but is also dependent on Ca 2+ release from intracellular stores, which primes LDCVs for exocytosis. Despite its importance, critical aspects of the Ca 2+ -dependent mechanisms of its secretion remain to be identified. Here we show that lysosomes surround dendritic LDCVs, and that the direct activation of endolysosomal two-pore channels (TPCs) provides the critical Ca 2+ signals to prime OT release by increasing the releasable LDCV pool without directly stimulating exocytosis. We observed a dramatic reduction in plasma OT levels in TPC knockout mice, and impaired secretion of OT from the hypothalamus demonstrating the importance of priming of neuropeptide vesicles for activity-dependent release. Furthermore, we show that activation of type 1 metabotropic glutamate receptors sustains somatodendritic OT release by recruiting TPCs. The priming effect could be mimicked by a direct application of nicotinic acid adenine dinucleotide phosphate, the endogenous messenger regulating TPCs, or a selective TPC2 agonist, TPC2-A1-N, or blocked by the antagonist Ned-19. Mice lacking TPCs exhibit impaired maternal and social behavior, which is restored by direct OT administration. This study demonstrates an unexpected role for lysosomes and TPCs in controlling neuropeptide secretion, and in regulating social behavior.

Published
2023
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24. Aquaporin regulates cell rounding through vacuole formation during endothelial-to-hematopoietic transition

Author

Yuki Sato, Mugiho Shigematsu, Maria Shibata-Kanno, Sho Maejima, Chie Tamura, and Hirotaka Sakamoto

Abstract

Endothelial-to-hematopoietic transition (EHT) is crucial for hematopoietic stem cell (HSC) generation. During EHT, the morphology of hemogenic endothelial cells (HECs) changes from flat and adherent to spherical HSCs, which detach from the dorsal aorta. HECs attain a rounded shape in a mitosis-independent manner before cell adhesion termination, suggesting an atypical cell-rounding mechanism. However, the direct mechanisms underlying this change in cell morphology during EHT remain unclear. Here, we show that large vacuoles were transiently formed in HECs and that aquaporin-1 (AQP1) was localized in the vacuole and plasma membranes. Overexpression of AQP1 in non-HECs induced ectopic vacuole expansion, cell rounding, and subsequent cell detachment from the endothelium into the bloodstream, mimicking EHT. Loss of redundant AQP functions by CRISPR/Cas9 gene editing in HECs impeded the morphological EHT. Our findings provide the first evidence indicating that morphological segregation of HSCs from endothelial cells is regulated by water influx into vacuoles. These findings provide important insights for further exploration of the mechanisms underlying cell/tissue morphogenesis through water-adoptive cellular responses.SUMMARY STATEMENTHemogenic endothelial cells transiently form large vacuoles during endothelial-to-hematopoietic transition. Aquaporin water channels regulate cell rounding and detachment of emerging hematopoietic stem cells through vacuole formation.

Published
2022
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26. Evolutionary differentiation of androgen receptor ohnologs is responsible for the development of androgen-dependent unique sexual characteristics in a teleost fish

Author

Yukiko Ogino, Satoshi Ansai, Eiji Watanabe, Masaki Yasugi, Yukitoshi Katayama, Hirotaka Sakamoto, Keigo Okamoto, Kataaki Okubo, Yasuhiro Yamamoto, Ikuyo HARA, Touko Yamazaki, Ai Kato, Yasuhiro Kamei, Kiyoshi Naruse, Kohei Ohta, Hajime Ogino, Tatsuya Sakamoto, Shinichi Miyagawa, TOMOMI SATO, Gen Yamada, Michael Baker, and Taisen Iguchi

Abstract

Teleost fishes exhibit complex unique sexual characteristics, such as fin enlargement and courtship display, in response to androgens. However, the molecular mechanisms underlying their evolutionary acquisition remain largely unknown. To address this question, we analysed medaka (Oryzias latipes) mutants deficient in androgen receptor ohnologs (ara and arb) generated by the teleost-specific whole-genome duplication event (TSGD). We discovered that both ar ohnologs are not required for spermatogenesis and appear to be functionally redundant for courtship display in males, while both copies were necessary for their reproductive success; ara was required for tooth enlargement and behavioural attractiveness, while arb for male-specific fin morphogenesis and sexual motivation. We further showed that the differences in both the transcription of the two ars, cellular localisation of their encoded proteins and their downstream genetic programs could be responsible for the phenotypic diversity between the ara and arb mutants. These findings suggest that the ar ohnologs have diverged in the teleost lineage in two different ways: First through the loss of their roles in spermatogenesis and second through the gene duplication followed by functional differentiation that has likely resolved the pleiotropic roles derived from their ancestral gene. Thus, our results provide insights into how genome duplication impacts the massive diversification of sexual characteristics in the teleost lineage.

Published
2022
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27. Bayesian parameter estimation from dispersion relation observation data with Poisson process

Author

Shun Katakami, Hirotaka Sakamoto, Kenji Nagata, Taka-hisa Arima, and Masato Okada

Abstract

In this study, we estimate the distribution of lattice model parameters based on Bayesian estimation using the dispersion relation spectral data of lattice vibration. The dispersion relation of lattice vibration is observed using inelastic scattering of neutrons or x rays and is used to analyze the speed of sound and interatomic force. However, the current analysis method of dispersion relation observation data in the field of experimental physics requires manually fitting parameters, so the analysis is costly and cannot effectively handle high-dimensional data and large amounts of data. Moreover, it is impossible to discuss the estimation accuracy with the conventional method. Therefore, we solve these problems by estimating the distribution of parameters using Bayesian inference. We propose a lattice model parameter estimation method that uses Bayesian inference with a physical observation stochastic process and determine the method's effectiveness using artificial data.

Published
2022
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28. Aquaporin regulates cell rounding through vacuole formation during endothelial-to-hematopoietic transition.

Author

Yuki Sato, Mugiho Shigematsu, Shibata-Kanno, Maria, Sho Maejima, Chie Tamura, and Hirotaka Sakamoto

Subjects
AQUAPORINS, CELL morphology, HEMATOPOIETIC stem cells, ENDOTHELIAL cells, CELL membranes, CELL adhesion, MORPHOGENESIS
Abstract

Endothelial-to-hematopoietic transition (EHT) is crucial for hematopoietic stem cell (HSC) generation. During EHT, the morphology of hemogenic endothelial cells (HECs) changes from flat and adherent to spherical hematopoietic cells, which detach from the dorsal aorta. HECs attain a rounded shape in a mitosis-independent manner before cell adhesion termination, suggesting an atypical cellrounding mechanism. However, the direct mechanisms underlying this change in cell morphology during EHT remain unclear. Here, we show that large vacuoles were transiently formed in avian HECs, and that aquaporin 1 (AQP1) was localized in the vacuole and plasma membranes. Overexpression of AQP1 in non-HECs induced ectopic vacuole expansion, cell rounding and subsequent cell detachment from the endothelium into the bloodstream, mimicking EHT. Loss of redundant AQP functions by CRISPR/Cas9 gene editing in HECs impeded the morphological EHT. Our findings provide the first evidence to indicate that morphological segregation of hematopoietic cells from endothelial cells is regulated by water influx into vacuoles. These findings provide important insights for further exploration of the mechanisms underlying cell/tissue morphogenesis through wateradoptive cellular responses. [ABSTRACT FROM AUTHOR]

Published
2023
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29. Variation of pro‐vasopressin processing in parvocellular and magnocellular neurons in the paraventricular nucleus of the hypothalamus: Evidence from the vasopressin‐related glycopeptide copeptin

Author

John F. Morris, Keiko Takanami, Yasumasa Ueda, Hirotaka Sakamoto, Ashraf Hossain Talukder, Natsuko Kawakami, Sho Maejima, Tatsuya Sakamoto, Takumi Oti, Keita Satoh, Keiichi Itoi, and Akito Otubo

Subjects
Male, RRID: AB_2313960, 0301 basic medicine, RRID: AB_10013361, endocrine system, medicine.medical_specialty, Vasopressin, genetic structures, Vasopressins, vasopressin, RRID: AB_2314234, Prohormone convertase, Neurophysins, Biology, paraventricular nucleus of the hypothalamus, RRID: AB_2061966, Mice, 03 medical and health sciences, 0302 clinical medicine, Copeptin, Parvocellular cell, Posterior pituitary, Internal medicine, medicine, Animals, hypothalamo‐pituitary–adrenal system, Protein Precursors, Neurons, General Neuroscience, Glycopeptides, copeptin, RRID: AB_90782, Rats, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, nervous system, Hypothalamus, immunohistochemistry, Macaca, Magnocellular cell, Female, processing, sense organs, RRID: AB_2722604, hormones, hormone substitutes, and hormone antagonists, 030217 neurology & neurosurgery, Paraventricular Hypothalamic Nucleus, RRID: AB_2722605
Abstract

Arginine vasopressin (AVP) is synthesized in parvocellular- and magnocellular neuroendocrine neurons in the paraventricular nucleus (PVN) of the hypothalamus. Whereas magnocellular AVP neurons project primarily to the posterior pituitary, parvocellular AVP neurons project to the median eminence (ME) and to extrahypothalamic areas. The AVP gene encodes pre-pro-AVP that comprises the signal peptide, AVP, neurophysin (NPII), and a copeptin glycopeptide. In the present study, we used an N-terminal copeptin antiserum to examine copeptin expression in magnocellular and parvocellular neurons in the hypothalamus in the mouse, rat, and macaque monkey. Although magnocellular NPII-expressing neurons exhibited strong N-terminal copeptin immunoreactivity in all three species, a great majority (~90%) of parvocellular neurons that expressed NPII was devoid of copeptin immunoreactivity in the mouse, and in approximately half (~53%) of them in the rat, whereas in monkey hypothalamus, virtually all NPII-immunoreactive parvocellular neurons contained strong copeptin immunoreactivity. Immunoelectron microscopy in the mouse clearly showed copeptin-immunoreactivity co-localized with NPII-immunoreactivity in neurosecretory vesicles in the internal layer of the ME and posterior pituitary, but not in the external layer of the ME. Intracerebroventricular administration of a prohormone convertase inhibitor, hexa-d-arginine amide resulted in a marked reduction of copeptin-immunoreactivity in the NPII-immunoreactive magnocellular PVN neurons in the mouse, suggesting that low protease activity and incomplete processing of pro-AVP could explain the disproportionally low levels of N-terminal copeptin expression in rodent AVP (NPII)-expressing parvocellular neurons. Physiologic and phylogenetic aspects of copeptin expression among neuroendocrine neurons require further exploration.

Published
2020
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31. Spinal transection switches the effect of metabotropic glutamate receptor subtype 7 from the facilitation to inhibition of ejaculation

Author

Miwako Masugi-Tokita, Shigehisa Kubota, Kenichi Kobayashi, Tetsuya Yoshida, Susumu Kageyama, Hirotaka Sakamoto, and Akihiro Kawauchi

Subjects
General Neuroscience
Abstract

Metabotropic glutamate receptor subtype 7 (mGluR7) is a member of the group III mGluRs, which localize to presynaptic active zones of the central nervous system. We previously reported that mGluR7 knockout (KO) mice exhibit ejaculatory disorders, although they have normal sexual motivation. We hypothesized that mGluR7 regulates ejaculation by potentiating the excitability of the neural circuit in the lumbosacral spinal cord, because administration of the mGluR7-selective antagonist into that region inhibits drug-induced ejaculation. In the present study, to elucidate the mechanism of impaired ejaculation in mGluR7 KO mice, we eliminated the influence of the brain by spinal transection (spinalization). Unexpectedly, sexual responses of mGluR7 KO mice were stronger than those of wild-type mice after spinalization. Histological examination indicated that mGluR7 controls sympathetic neurons as well as parasympathetic neurons. In view of the complexity of its synaptic regulation, mGluR7 might control ejaculation by multi-level and multi-modal mechanisms. Our study provides insight into the mechanism of ejaculation as well as a strategy for future therapies to treat ejaculatory disorders in humans.

Published
2022
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32. Effect of the first mating experience on mating behaviors and brain gene expression in male medaka

Author

Masahiro Daimon, Takafumi Katsumura, Hirotaka Sakamoto, Satoshi Ansai, and Hideaki Takeuchi

Subjects
behavior and behavior mechanisms, reproductive and urinary physiology
Abstract

The first mating (sexual) experience leads to the maturation of male mating behavior across species (insects, fish, rodents). Here, we investigated whether the first mating experience leads to maturation of male mating behavior in medaka using repeated mating tests. In “naïve” (sexually inexperienced) males after the first mating experience, the latency to mate with the same female partner was significantly decreased, whereas when the partner was swapped, the latency to mate was not affected. These findings suggest that repeated matings (3 times) enhanced male mating activity for the familiarized female, but not for an unfamiliarized female. In “experienced” (> 7 matings) males, repeated matings (3 times) with the same partner did not influence the latency to mate, suggesting that multiple matings (> 7 times) abolish the mate preference of naïve males. Furthermore, we identified 10 highly and differentially expressed genes after the mating experience in the brains of the post-naïve males, and revealed 3 genes that are required for a functional cascade of the thyroid hormone system. These findings together suggest that the first mating experience abolishes the preference to mate with a familiarized female via neural maturation triggered by thyroid hormone activation in the medaka brain.

Published
2022
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33. Lattice-patterned collagen fibers and their dynamics in axolotl skin regeneration

Author

Rena Kashimoto, Saya Furukawa, Sakiya Yamamoto, Yasuhiro Kamei, Joe Sakamoto, Shigenori Nonaka, Tomonobu M. Watanabe, Tatsuya Sakamoto, Hirotaka Sakamoto, and Akira Satoh

Subjects
Multidisciplinary
Abstract

The morphology of collagen-producing cells and the structure of produced collagen in the dermis have not been well-described. This lack of insights has been a serious obstacle in the evaluation of skin regeneration. We succeeded in visualizing collagen-producing cells and produced collagen using the axolotl skin, which is highly transparent. The visualized dermal collagen had a lattice-like structure. The collagen-producing fibroblasts consistently possessed the lattice-patterned filopodia along with the lattice-patterned collagen network. The dynamics of this lattice-like structure were also verified in the skin regeneration process of axolotls, and it was found that the correct lattice-like structure was not reorganized after simple skin wounding but was reorganized in the presence of nerves. These findings are not only fundamental insights in dermatology but also valuable insights into the mechanism of skin regeneration.

Published
2022

34. Sexual Experience Induces the Expression of Gastrin-Releasing Peptide and Oxytocin Receptors in the Spinal Ejaculation Generator in Rats

Author

Junta Nagafuchi, Takumi Oti, Hirotaka Sakamoto, Ryota Ueda, Tatsuya Sakamoto, Ryoko Kumagai, Takashi Ito, and Yasuhiko Kondo

Subjects
Male, medicine.medical_specialty, spinal ejaculation generator, Cord, Ejaculation, QH301-705.5, Catalysis, Article, gastrin-releasing peptide, Inorganic Chemistry, brain–spinal cord neural circuits, Gastrin-releasing peptide, Internal medicine, oxytocin, medicine, Biological neural network, Animals, Rats, Long-Evans, Physical and Theoretical Chemistry, Biology (General), Molecular Biology, QD1-999, Spectroscopy, male sexual activity, business.industry, Penile Erection, Organic Chemistry, brain-spinal cord neural circuits, General Medicine, Spinal cord, Oxytocin receptor, Computer Science Applications, Rats, Lumbar Spinal Cord, Chemistry, Endocrinology, medicine.anatomical_structure, sexual experience, Oxytocin, Gene Expression Regulation, Spinal Cord, Receptors, Oxytocin, lumbosacral spinal cord, Female, business, medicine.drug
Abstract

Male sexual function in mammals is controlled by the brain neural circuits and the spinal cord centers located in the lamina X of the lumbar spinal cord (L3–L4). Recently, we reported that hypothalamic oxytocin neurons project to the lumbar spinal cord to activate the neurons located in the dorsal lamina X of the lumbar spinal cord (dXL) via oxytocin receptors, thereby facilitating male sexual activity. Sexual experiences can influence male sexual activity in rats. However, how this experience affects the brain–spinal cord neural circuits underlying male sexual activity remains unknown. Focusing on dXL neurons that are innervated by hypothalamic oxytocinergic neurons controlling male sexual function, we examined whether sexual experience affects such neural circuits. We found that &gt, 50% of dXL neurons were activated in the first ejaculation group and ~30% in the control and intromission groups in sexually naïve males. In contrast, in sexually experienced males, ~50% of dXL neurons were activated in both the intromission and ejaculation groups, compared to ~30% in the control group. Furthermore, sexual experience induced expressions of gastrin-releasing peptide and oxytocin receptors in the lumbar spinal cord. This is the first demonstration of the effects of sexual experience on molecular expressions in the neural circuits controlling male sexual activity in the spinal cord.

Published
2021

35. Immunoelectron Microscopic Characterization of Vasopressin-Producing Neurons in the Hypothalamo-Pituitary Axis of Non-Human Primates by Use of Formaldehyde-Fixed Tissues Stored at -25 °C for Several Years

Author

Yasumasa Ueda, Hirotaka Sakamoto, John F. Morris, Takumi Oti, Keita Satoh, Tatsuya Sakamoto, Akito Otubo, and Sho Maejima

Subjects
Male, Vasopressin, Hypothalamo-Hypophyseal System, Tissue Fixation, corticotrophin-releasing factor, QH301-705.5, Vasopressins, vasopressin, glutamate, Japanese macaque monkey, post-embedding immunoelectron microscopy, Macaque, Catalysis, Article, Macaca fuscata, paraventricular nucleus of the hypothalamus, Inorganic Chemistry, Glutamatergic, Fixatives, Posterior pituitary, Parvocellular cell, biology.animal, Formaldehyde, Vesicular Glutamate Transport Proteins, medicine, Animals, Biology (General), Physical and Theoretical Chemistry, Microscopy, Immunoelectron, QD1-999, Molecular Biology, Spectroscopy, Cryopreservation, Neurons, biology, Chemistry, Organic Chemistry, Glutamate receptor, dense-cored neurosecretory vesicle, General Medicine, Computer Science Applications, Cell biology, medicine.anatomical_structure, nervous system, Median eminence, Ultrastructure, Female, hormones, hormone substitutes, and hormone antagonists
Abstract

Translational research often requires the testing of experimental therapies in primates, but research in non-human primates is now stringently controlled by law around the world. Tissues fixed in formaldehyde without glutaraldehyde have been thought to be inappropriate for use in electron microscopic analysis, particularly those of the brain. Here we report the immunoelectron microscopic characterization of arginine vasopressin (AVP)-producing neurons in macaque hypothalamo-pituitary axis tissues fixed by perfusion with 4% formaldehyde and stored at −25 °C for several years (4–6 years). The size difference of dense-cored vesicles between magnocellular and parvocellular AVP neurons was detectable in their cell bodies and perivascular nerve endings located, respectively, in the posterior pituitary and median eminence. Furthermore, glutamate and the vesicular glutamate transporter 2 could be colocalized with AVP in perivascular nerve endings of both the posterior pituitary and the external layer of the median eminence, suggesting that both magnocellular and parvocellular AVP neurons are glutamatergic in primates. Both ultrastructure and immunoreactivity can therefore be sufficiently preserved in macaque brain tissues stored long-term, initially for light microscopy. Taken together, these results suggest that this methodology could be applied to the human post-mortem brain and be very useful in translational research.

Published
2021

36. Estrogens influence female itch sensitivity via the spinal gastrin-releasing peptide receptor neurons

Author

Hirotaka Sakamoto, Ken-ichi Matsuda, Keiko Takanami, Daisuke Uta, Earl Carstens, Tatsuya Sakamoto, and Mitsuhiro Kawata

Subjects
0301 basic medicine, Male, gastrin-releasing peptide receptor, Wistar, Somatosensory system, chemistry.chemical_compound, 0302 clinical medicine, immune system diseases, Gastrin-releasing peptide receptor, itch, skin and connective tissue diseases, Receptor, Progesterone, Multidisciplinary, Estradiol, Pain Research, Biological Sciences, medicine.anatomical_structure, Neurological, Female, Chronic Pain, hormones, hormone substitutes, and hormone antagonists, Histamine, estrogens, medicine.medical_specialty, medicine.drug_class, 03 medical and health sciences, Sex Factors, Internal medicine, parasitic diseases, otorhinolaryngologic diseases, medicine, Animals, Rats, Wistar, business.industry, Pruritus, Neurosciences, spinal cord, Scratching, Spinal cord, histamine, Estrogen, eye diseases, Rats, Electrophysiology, 030104 developmental biology, Endocrinology, chemistry, business, 030217 neurology & neurosurgery, Neuroscience
Abstract

Significance Many women exhibit a dramatic increase in itch during pregnancy, but the underlying mechanism is unknown. Here, we demonstrate that the female sex steroid hormone estradiol, but not progesterone, enhances itch-related scratching behavior in female rats elicited by histamine, the prototypical itch mediator in humans. This is associated with an enhancement in histamine-evoked activity of a subset of spinal dorsal horn neurons that express a neuropeptide receptor, gastrin-releasing peptide receptor (GRPR), that was previously shown to be involved in spinal cord processing of itch. These findings may account for why itch sensation varies with estrogen levels and provide a basis for treating histamine-related itch diseases in females by targeting GRPR., There are sex differences in somatosensory sensitivity. Circulating estrogens appear to have a pronociceptive effect that explains why females are reported to be more sensitive to pain than males. Although itch symptoms develop during pregnancy in many women, the underlying mechanism of female-specific pruritus is unknown. Here, we demonstrate that estradiol, but not progesterone, enhances histamine-evoked scratching behavior indicative of itch in female rats. Estradiol increased the expression of the spinal itch mediator, gastrin-releasing peptide (GRP), and increased the histamine-evoked activity of itch-processing neurons that express the GRP receptor (GRPR) in the spinal dorsal horn. The enhancement of itch behavior by estradiol was suppressed by intrathecal administration of a GRPR blocker. In vivo electrophysiological analysis showed that estradiol increased the histamine-evoked firing frequency and prolonged the response of spinal GRP-sensitive neurons in female rats. On the other hand, estradiol did not affect the threshold of noxious thermal pain and decreased touch sensitivity, indicating that estradiol separately affects itch, pain, and touch modalities. Thus, estrogens selectively enhance histamine-evoked itch in females via the spinal GRP/GRPR system. This may explain why itch sensation varies with estrogen levels and provides a basis for treating itch in females by targeting GRPR.

Published
2021

37. Immuno-EM characterization of vasopressin neurons in macaques by use of formaldehyde-fixed tissues stored for several years

Author

Akito Otubo, John F. Morris, Sho Maejima, Takumi Oti, Tatsuya Sakamoto, Keita Satoh, Yasumasa Ueda, and Hirotaka Sakamoto

Subjects
Vasopressin, biology, Glutamate receptor, Macaque, Cell biology, Glutamatergic, medicine.anatomical_structure, nervous system, Parvocellular cell, Posterior pituitary, biology.animal, Median eminence, Ultrastructure, medicine, hormones, hormone substitutes, and hormone antagonists
Abstract

Translational research often requires the testing of experimental therapies in primates, but research in non-human primates is now stringently controlled by law around the world. Tissues fixed in formaldehyde without glutaraldehyde have been thought to be inappropriate for use in electron microscopic analysis, particularly those of the brain. Here we report the immunoelectron microscopic characterization of arginine vasopressin (AVP)-producing neurons in macaque hypothalamo-pituitary axis tissues fixed with 4% formaldehyde and stored at –25°C for several years. The size difference of dense-cored vesicles between magnocellular and parvocellular AVP neurons was detectable in their cell bodies and perivascular nerve endings located, respectively, in the posterior pituitary and median eminence. Furthermore, glutamate and the vesicular glutamate transporter 2 were colocalized with AVP in perivascular nerve endings of both the posterior pituitary and the external layer of the median eminence, suggesting that both magnocellular and parvocellular AVP neurons are glutamatergic in primates. Both ultrastructure and immunoreactivity can therefore be sufficiently preserved in macaque brain tissues stored long-term for light microscopy. Taken together, these results suggest that this methodology could be applied to the human post-mortem brain and be very useful in translational research.

Published
2021
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40. Comparing nerve-mediated FGF signalling in the early initiation phase of organ regeneration across mutliple amphibian species

Author

Sakiya Yamamoto, Hirotaka Sakamoto, Saya Furukawa, Akira Satoh, and Rena Kashimoto

Subjects
Amphibian, Tail, External gills, animal structures, biology, Regeneration (biology), Extremities, biology.organism_classification, Fibroblast growth factor, Regenerative process, Cell biology, body regions, Amphibians, Fibroblast Growth Factors, Signalling, Axolotl, biology.animal, Genetics, Molecular Medicine, Animals, Regeneration, Animal Science and Zoology, Blastema, Ecology, Evolution, Behavior and Systematics, Developmental Biology
Abstract

Amphibians have a very high capacity for regeneration among tetrapods. This superior regeneration capability in amphibians can be observed in limbs, the tail, teeth, external gills, the heart, and some internal organs. The mechanisms underlying the superior organ regeneration capability have been studied for a long time. Limb regeneration has been investigated as the representative phenomenon for organ-level regeneration. In limb regeneration, a prominent difference between regenerative and nonregenerative animals after limb amputation is blastema formation. A regeneration blastema requires the presence of nerves in the stump region. Thus, nerve regulation is responsible for blastema induction, and it has received much attention. Nerve regulation in regeneration has been investigated using the limb regeneration model and newly established alternative experimental model called the accessory limb model. Previous studies have identified some candidate genes that act as neural factors in limb regeneration, and these studies also clarified related events in early limb regeneration. Consistent with the nervous regulation and related events in limb regeneration, similar regeneration mechanisms in other organs have been discovered. This review especially focuses on the role of nerve-mediated fibroblast growth factor in the initiation phase of organ regeneration. Comparison of the initiation mechanisms for regeneration in various amphibian organs allows speculation about a fundamental regenerative process.

Published
2021

41. Contributors

Author

Masafumi Amano, Hironori Ando, Tadashi Andoh, Michael E. Baker, Melissa S. Cameron, Ivana Daubnerová, John A. Donald, Keisuke Fukumura, Masayuki Funaba, Shogo Haraguchi, Yoichi Hayakawa, Satoshi Hirako, Susumu Hyodo, Taisen Iguchi, Akio Inui, Hiroyuki Kaiya, Sho Kakizawa, Takumi Kamiyama, Yohei Kanamori, Shinji Kanda, Hidekazu Katayama, Takashi Kato, Yoshinao Katsu, Goro Katsuura, Tsuyoshi Kawada, Atsushi P. Kimura, Keiichiro Kitamura, Yuki Kobayashi, Yu Kodani, Norifumi Konno, Shigehiro Kuraku, Hiroyuki Minakata, Masatoshi Mita, Shinichi Miyagawa, Mikiya Miyazato, Kanta Mizusawa, Kenji Mori, Fumihiro Morishita, Shunsuke Moriyama, Hiroshi Nagasaki, Shinji Nagata, Tomoya Nakamachi, Ryusuke Niwa, Yukiko Ogino, Maho Ogoshi, Tsuyoshi Ohira, Hiroko Ohki-Hamazaki, Hirokazu Ohtaki, Yoshihiko Ohyama, Yoshitaka Oka, Naoki Okamoto, Moe Onizawa, Tomohiro Osugi, Yumiko Saito, Takafumi Sakai, Hirotaka Sakamoto, Tatsuya Sakamoto, Ichiro Sakata, Honoo Satake, Seiichi Sato, Tomomi Sato, Hitomi Seike, Toshio Sekiguchi, Munetaka Shimizu, Toshimasa Shinki, Tetsuro Shinoda, Kunihiro Shiomi, Nobuo Suzuki, Tetsuya Tachibana, Akiyoshi Takahashi, Toshio Takahashi, Akinori Takaoka, Yoshio Takei, Fumiko Takenoya, Sakae Takeuchi, Yoshiaki Tanaka, Koji Toshinai, Takehiro Tsukada, Kazuyoshi Tsutsui, Naoaki Tsutsui, Takayoshi Ubuka, Kazuyoshi Ukena, Nobuhiro Wada, Jun Watanabe, Marty Kwok-Shing Wong, Taisho Yamada, Yoko Yamaguchi, Naoki Yamanaka, Kiyoshi Yamauchi, Shinya Yuge, Yijun Zhou, and Dušan Žitňan

Published
2021
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42. Oxytocin Influences Male Sexual Activity via Non-synaptic Axonal Release in the Spinal Cord

Author

Daisuke Uta, Larry J. Young, Antony Galione, Takumi Oti, Keita Satoh, Keiko Takanami, Junta Nagafuchi, Sayaka Tateishi, Hirotaka Sakamoto, Ryota Ueda, Tatsuya Sakamoto, and John F. Morris

Subjects
0301 basic medicine, Male, spinal ejaculation generator, medicine.medical_specialty, Ejaculation, Hypothalamus, Biology, Oxytocin, General Biochemistry, Genetics and Molecular Biology, Article, Exocytosis, Diffusion, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Gastrin-releasing peptide, medicine, Biological neural network, Animals, Injections, Spinal, male sexual activity, Lumbar Vertebrae, Penile Erection, localized volume transmission, Spinal cord, Oxytocin receptor, Axons, Rats, Lumbar Spinal Cord, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, Gastrin-Releasing Peptide, Spinal Cord, Receptors, Oxytocin, Female, Rats, Transgenic, General Agricultural and Biological Sciences, 030217 neurology & neurosurgery, hormones, hormone substitutes, and hormone antagonists, medicine.drug, Heparin-binding EGF-like Growth Factor, Penis
Abstract

Oxytocinergic neurons in the paraventricular nucleus of the hypothalamus that project to extrahypothalamic brain areas and the lumbar spinal cord play an important role in the control of erectile function and male sexual behavior in mammals. The gastrin-releasing peptide (GRP) system in the lumbosacral spinal cord is an important component of the neural circuits that control penile reflexes in rats, circuits that are commonly referred to as the “spinal ejaculation generator (SEG).” We have examined the functional interaction between the SEG neurons and the hypothalamo-spinal oxytocin system in rats. Here, we show that SEG/GRP neurons express oxytocin receptors and are activated by oxytocin during male sexual behavior. Intrathecal injection of oxytocin receptor antagonist not only attenuates ejaculation but also affects pre-ejaculatory behavior during normal sexual activity. Electron microscopy of potassium-stimulated acute slices of the lumbar cord showed that oxytocin-neurophysin-immunoreactivity was detected in large numbers of neurosecretory dense-cored vesicles, many of which are located close to the plasmalemma of axonal varicosities in which no electron-lucent microvesicles or synaptic membrane thickenings were visible. These results suggested that, in rats, release of oxytocin in the lumbar spinal cord is not limited to conventional synapses but occurs by exocytosis of the dense-cored vesicles from axonal varicosities and acts by diffusion—a localized volume transmission—to reach oxytocin receptors on GRP neurons and facilitate male sexual function.

Published
2020

43. Author response for 'Variation of pro‐vasopressin processing in parvocellular and magnocellular neurons in the paraventricular nucleus of the hypothalamus: Evidence from the vasopressin‐related glycopeptide copeptin'

Author

null Natsuko Kawakami, null Akito Otubo, null Sho Maejima, null Ashraf H. Talukder, null Keita Satoh, null Takumi Oti, null Keiko Takanami, null Yasumasa Ueda, null Keiichi Itoi, null John F. Morris, null Tatsuya Sakamoto, and null Hirotaka Sakamoto

Published
2020
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44. Metabotropic Glutamate Receptor Subtype 7 Is Essential for Ejaculation

Author

Keiji Tomita, Hirotaka Sakamoto, Kenichi Kobayashi, Miwako Masugi-Tokita, Akihiro Kawauchi, Susumu Kageyama, and Tetsuya Yoshida

Subjects
0301 basic medicine, Male, medicine.medical_specialty, mGluR7, Sildenafil, Ejaculation, Pyridones, Central nervous system, Neuroscience (miscellaneous), Galanin, Nitric Oxide Synthase Type I, Receptors, Metabotropic Glutamate, Models, Biological, 03 medical and health sciences, Cellular and Molecular Neuroscience, chemistry.chemical_compound, Sexual Behavior, Animal, 0302 clinical medicine, Parasympathetic Nervous System, Internal medicine, Medicine, Animals, Mice, Knockout, Lumbar Vertebrae, business.industry, Lumbosacral spinal cord, Glutamate receptor, Antagonist, medicine.disease, Axons, Mice, Inbred C57BL, Apposition, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, Erectile dysfunction, Neurology, chemistry, Spinal Cord, Metabotropic glutamate receptor, Lumbar spinothalamic (LSt) cells, Synapses, Female, Glutamate, business, 030217 neurology & neurosurgery
Abstract

Metabotropic glutamate receptor subtype 7 (mGluR7) is a member of the group III mGluRs, which are negatively coupled to adenylate cyclase via Gi/Go proteins and localized to presynaptic active zones of the mammalian central nervous system (CNS). To elucidate the mechanism of impaired reproductivity of mGluR7 knockout (KO) mice, we investigated sexual behavior in this line, which exhibits ejaculatory disorder, although with normal sexual motivation and erectile function. To identify the site of action within the CNS responsible for the effect of mGluR7 on ejaculation, we then used a para-chloroamphetamine (PCA)-induced ejaculation model. Intrathecal administration of the mGluR7-selective antagonist 6-(4-methoxyphenyl)-5-methyl-3-pyridin-4-ylisoxazolo[4,5-c]pyridin-4(5H)-one (MMPIP) into the lumbosacral spinal cord inhibited PCA-induced ejaculation. Immunohistochemistry revealed mGluR7-like immunoreactivity (LI) expressed in the same area where lumbar spinothalamic (LSt) cells regulate the parasympathetic ejaculatory pathway. At high magnification, the apposition of mGluR7-LI puncta and neuronal nitric oxide synthase (nNOS)-LI-positive putative parasympathetic preganglionic neurons was evident. These results indicate that mGluR7 in the lumbosacral spinal cord regulates ejaculation by potentiating the excitability of parasympathetic preganglionic neurons. The ejaculatory disorder is a major issue in the field of male reproductive function. Erectile dysfunction (ED) can be treated by phosphodiesterase type 5 inhibitors like sildenafil (Viagra®), but the ejaculatory disorder cannot. Lack of understanding of the ejaculatory mechanism hinders the development of therapies for ejaculatory problems. This study is the first to demonstrate that mGluR7 regulates ejaculation and the results provide insight into the mechanism of ejaculation as well as a strategy for future therapies to treat ejaculatory disorders in humans.

Published
2020

45. Revisiting the gastrin-releasing peptide/bombesin system: A reverse-evolutionary study consideringXenopus

Author

Yasuhisa Kobayashi, Takumi Oti, Mayuko Hamada, Hirotaka Sakamoto, Asuka Hirooka, Keiko Takanami, Daiki Fujiyama, and Tatsuya Sakamoto

Subjects
Messenger RNA, biology, Xenopus, Neuropeptide, Bombesin, Toad, Neuromedin B, biology.organism_classification, Cell biology, chemistry.chemical_compound, chemistry, biology.animal, Gastrin-releasing peptide, Receptor, hormones, hormone substitutes, and hormone antagonists
Abstract

Gastrin-releasing peptide (GRP), first isolated from the porcine stomach, is a neuropeptide that modulates the autonomic system in mammals and has previously been considered to be the mammalian equivalent of bombesin, a fourteen amino acid peptide first isolated from the skin of the European fire-bellied toad,Bombina bombina. Bombesin-like peptides and the related neuromedin B (NMB) have since been identified in mammals. However, the orthologous relationships among GRP/NMB/bombesin and their receptors in vertebrates are still not well understood. Our studies have focused on the GRP system that is widely conserved among vertebrates. We have used phylogenetic analysis and reverse transcription-PCR, quantitative PCR, immunohistochemistry, and Western blotting experiments to examine the expression of both GRP and its receptor (GRPR) in a clawed frog (Xenopus tropicalis) and to understand the derivation of GRP system in the ancestor of mammals. We demonstrate, by phylogenetic and synteny analyses, that GRP is not a mammalian counterpart of bombesin and also that, whereas the GRP system is widely conserved among vertebrates, the NMB/bombesin system has diversified in certain lineages, in particular in frog species. InXenopus, we found the expression of the mRNA for bothGRPandGRPRin the brain and stomach. In addition, our quantitative PCR analysis shows that, inXenopus, the expression ofGRPmRNA is highest in the brain, whereas expression ofGRPRmRNA is highest in the spinal cord. Our immunohistochemical analysis shows that GRP-immunoreactive cell bodies and fibers are distributed in several telencephalic, diencephalic, and rhombencephalic regions and spinal cord ofXenopus. Our Western blotting analysis also indicates the presence of GRPR protein in the brain and spinal cord ofXenopus. We conclude that GRP peptides and their receptors have evolved to play multiple roles in both the gut and brain of amphibians as one of the‘gut-brain peptide’systems.Author SummaryBombesin is a putative antibacterial peptide isolated from the skin of the frog,Bombina bombina. Two related (bombesin-like) peptides, gastrin-releasing peptide (GRP) and neuromedin B (NMB) have been found in mammals. The history of GRP/bombesin discovery has caused little attention to be paid to the evolutionary relationship of GRP/bombesin and their receptors in vertebrates. We have classified the peptides and their receptors from the phylogenetic viewpoint using a newly established genetic database and bioinformatics. We demonstrate, by phylogenetic and synteny analyses, that GRP is not a mammalian counterpart of bombesin and also that, whereas the GRP system is widely conserved among vertebrates, the NMB/bombesin system has diversified in certain lineages, in particular in frogs. Gene expression analyses combined with immunohistochemistry and Western blotting experiments indicate that GRP peptides and their receptors have evolved from ancestral (GRP) homologues to play multiple roles in both the gut and the brain as one of the‘gut-brain peptide’systems of vertebrates, which is distinct from the frog bombesin lineage.

Published
2020
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46. Vasopressin-oxytocin–type signaling is ancient and has a conserved water homeostasis role in euryhaline marine planarians

Author

Aoshi Kobayashi, Mayuko Hamada, Masa-aki Yoshida, Yasuhisa Kobayashi, Naoaki Tsutsui, Toshio Sekiguchi, Yuta Matsukawa, Sho Maejima, Joseph J. Gingell, Shoko Sekiguchi, Ayumu Hamamoto, Debbie L. Hay, John F. Morris, Tatsuya Sakamoto, and Hirotaka Sakamoto

Subjects
Multidisciplinary
Abstract

Vasopressin/oxytocin (VP/OT)–related peptides are essential for mammalian antidiuresis, sociosexual behavior, and reproduction. However, the evolutionary origin of this peptide system is still uncertain. Here, we identify orthologous genes to those for VP/OT in Platyhelminthes, intertidal planarians that have a simple bilaterian body structure but lack a coelom and body-fluid circulatory system. We report a comprehensive characterization of the neuropeptide derived from this VP/OT-type gene, identifying its functional receptor, and name it the “platytocin” system. Our experiments with these euryhaline planarians, living where environmental salinities fluctuate due to evaporation and rainfall, suggest that platytocin functions as an “antidiuretic hormone” and also organizes diverse actions including reproduction and chemosensory-associated behavior. We propose that bilaterians acquired physiological adaptations to amphibious lives by such regulation of the body fluids. This neuropeptide-secreting system clearly became indispensable for life even without the development of a vascular circulatory system or relevant synapses.

Published
2022

47. Analyzing the effects of co-expression of chick (Gallus gallus) melanocortin receptors with either chick MRAP1 or MRAP2 in CHO cells on sensitivity to ACTH(1–24) or ACTH(1–13)NH2: Implications for the avian HPA axis and avian melanocortin circuits in the hypothalamus

Author

Hirotaka Sakamoto, Alexa L. Thomas, Takaharu Kawashima, Robert M. Dores, Tatsuya Sakamoto, Perry Davis, and Fumihiko Maekawa

Subjects
0301 basic medicine, endocrine system, medicine.medical_specialty, Messenger RNA, Adrenal gland, Stimulation, Ovary, Biology, 03 medical and health sciences, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, Hypothalamus, Internal medicine, medicine, Animal Science and Zoology, ACTH receptor, Melanocortin, Receptor, hormones, hormone substitutes, and hormone antagonists
Abstract

In order to better understand the roles that melanocortin receptors (cMCRs) and melanocortin-2 receptor accessory proteins (cMRAP1 and cMRAP2) play in the HPA axis and hypothalamus, adrenal gland and hypothalamus mRNA from 1day-old white leghorn chicks (Gallus gallus), were analyzed by real-time PCR. mRNA was also made for kidney, ovary, and liver. Mrap1 mRNA could be detected in adrenal tissue, but not in any of the other tissues, and mrap2 mRNA was also detected in the adrenal gland. Finally, all five melanocortin receptors mRNAs could be detected in the adrenal gland; mc2r and mc5r mRNAs were the most abundant. To evaluate any potential interactions between MRAP1 and the MCRs that may occur in adrenal cells, individual chick mcr cDNA constructs were transiently expressed in CHO cells either in the presence or absence of a chick mrap1 cDNA, and the transfected cells were stimulated with hACTH(1-24) at concentrations ranging from 10-13M to 10-6M. As expected, MC2R required co-expression with MRAP1 for functional expression; whereas, co-expression of cMC3R with cMRAP1 had no statistically significant effect on sensitivity to hACTH(1-24). However, co-expression of MC4R and MC5R with MRAP1, increased sensitivity for ACTH(1-24) by approximately 35 fold and 365 fold, respectively. However, co-expressing of cMRAP2 with these melanocortin receptors had no effect on sensitivity to hACTH(1-24). Since the real-time PCR analysis detected mrap2 mRNA and mc4r mRNA in the hypothalamus, the interaction between cMC4R and cMRAP2 with respect to sensitivity to ACTH(1-13)NH2 stimulation was also evaluated. However, no effect, either positive or negative, was observed. Finally, the highest levels of mc5r mRNA were detected in liver cells. This observation raises the possibility that in one-day old chicks, activation of the HPA axis may also involve a physiological response from liver cells.

Published
2018
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48. Nemertean and phoronid genomes reveal lophotrochozoan evolution and the origin of bilaterian heads

Author

Miyuki Kanda, Kanako Hisata, Hirotaka Sakamoto, Yi-Jyun Luo, Ryo Koyanagi, Tadashi Akiyama, Noriyuki Satoh, and Tatsuya Sakamoto

Subjects
0301 basic medicine, Nemertea, Genome, Ecology, biology, Phylogenetic tree, Lineage (evolution), Vertebrate, biology.organism_classification, Biological Evolution, Invertebrates, Evolution, Molecular, 03 medical and health sciences, 030104 developmental biology, Evolutionary biology, Lophophore, biology.animal, Animals, Phoronis australis, Phoronid, Head, Phylogeny, Ecology, Evolution, Behavior and Systematics, Superphylum
Abstract

Nemerteans (ribbon worms) and phoronids (horseshoe worms) are closely related lophotrochozoans—a group of animals including leeches, snails and other invertebrates. Lophotrochozoans represent a superphylum that is crucial to our understanding of bilaterian evolution. However, given the inconsistency of molecular and morphological data for these groups, their origins have been unclear. Here, we present draft genomes of the nemertean Notospermus geniculatus and the phoronid Phoronis australis, together with transcriptomes along the adult bodies. Our genome-based phylogenetic analyses place Nemertea sister to the group containing Phoronida and Brachiopoda. We show that lophotrochozoans share many gene families with deuterostomes, suggesting that these two groups retain a core bilaterian gene repertoire that ecdysozoans (for example, flies and nematodes) and platyzoans (for example, flatworms and rotifers) do not. Comparative transcriptomics demonstrates that lophophores of phoronids and brachiopods are similar not only morphologically, but also at the molecular level. Despite dissimilar head structures, lophophores express vertebrate head and neuronal marker genes. This finding suggests a common origin of bilaterian head patterning, although different heads evolved independently in each lineage. Furthermore, we observe lineage-specific expansions of innate immunity and toxin-related genes. Together, our study reveals a dual nature of lophotrochozoans, where conserved and lineage-specific features shape their evolution. The authors sequence genomes of one nemertean and one phoronid and show that the two are closely related lophotrochozoans. Their data also support a common origin of bilaterian head patterning.

Published
2017
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49. Identification of the sexually dimorphic gastrin-releasing peptide system in the lumbosacral spinal cord that controls male reproductive function in the mouse and Asian house musk shrew (Suncus murinus)

Author

Hirotaka Sakamoto, Takamichi Jogahara, Yasuhisa Kobayashi, Kei Tamura, Tatsuya Sakamoto, Keiko Takanami, Asuka Hirooka, Takumi Oti, and Sen-ichi Oda

Subjects
0301 basic medicine, Male, medicine.medical_specialty, AB_2060157, Fluorescent Antibody Technique, Biology, Polymerase Chain Reaction, gastrin-releasing peptide, 03 medical and health sciences, Mice, RRID: AB_2571636, 0302 clinical medicine, Gastrin-releasing peptide, Internal medicine, medicine, Animals, RRID: AB_626757, Amino Acid Sequence, Receptor, RRID, Phylogeny, male reproductive function, Sex Characteristics, General Neuroscience, Reproduction, Shrews, Lumbosacral Region, spinal cord, Suncus, biology.organism_classification, Spinal cord, Immunohistochemistry, Androgen receptor, Sexual dimorphism, Lumbar Spinal Cord, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, Suncus murinus (suncus), sexual dimorphism, Female, 030217 neurology & neurosurgery, hormones, hormone substitutes, and hormone antagonists
Abstract

Several regions of the brain and spinal cord control male reproductive function. We previously demonstrated that the gastrin-releasing peptide (GRP) system, located in the lumbosacral spinal cord of rats, controls spinal centers to promote penile reflexes during male copulatory behavior. However, little information exists on the male-specific spinal GRP system in animals other than rats. The objective of this study was to examine the functional generality of the spinal GRP system in mammals using the Asian house musk shrew (Suncus murinus; suncus named as the laboratory strain), a specialized placental mammal model. Mice are also used for a representative model of small laboratory animals. We first isolated complementary DNA encoding GRP in suncus. Phylogenetic analysis revealed that suncus preproGRP was clustered to an independent branch. Reverse transcription-PCR showed that GRP and its receptor mRNAs were both expressed in the lumbar spinal cord of suncus and mice. Immunohistochemistry for GRP demonstrated that the sexually dimorphic GRP system and male-specific expression/distribution patterns of GRP in the lumbosacral spinal cord in suncus are similar to those of mice. In suncus, we further found that most GRP-expressing neurons in males also express androgen receptors, suggesting that this male-dominant system in suncus is also androgen-dependent. Taken together, these results indicate that the sexually dimorphic spinal GRP system exists not only in mice but also in suncus, suggesting that this system is a conserved property in mammals. J. Comp. Neurol. 525:1586-1598, 2017. © 2016 Wiley Periodicals, Inc.

Published
2017

50. The phosphatidylcholine transfer protein StarD7 is important for myogenic differentiation in mouse myoblast C2C12 cells and human primary skeletal myoblasts

Author

Satomi Mitsuhashi, Yasuhiro Horibata, Chieko Aoyama, Hiroyuki Sugimoto, Sho Maejima, Hiroaki Shimizu, Hiromi Ando, and Hirotaka Sakamoto

Subjects
STARD7, Primary Cell Culture, Myosin, lcsh:Medicine, Mitochondrion, Muscle Development, Article, Myoblasts, Gene Knockout Techniques, Mice, Animals, Humans, Myocyte, Muscle, Skeletal, lcsh:Science, Phospholipids, Multidisciplinary, Chemistry, Myogenesis, lcsh:R, Phosphatidylcholine transfer protein, HEK 293 cells, PARL, Gene Expression Regulation, Developmental, Cell Differentiation, musculoskeletal system, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha, Cell biology, lcsh:Q, Carrier Proteins, tissues, C2C12
Abstract

StarD7 is a phosphatidylcholine (PC)-specific lipid transfer protein essential for the maintenance of mitochondrial PC composition, morphogenesis, and respiration. Here, we studied the role of StarD7 in skeletal myoblast differentiation using mouse myoblast C2C12 cells and human primary myoblasts. Immunofluorescence and immuno-electron microscopy revealed that StarD7 was distributed in the cytosol, inner mitochondria space, and outer leaflet of the outer mitochondrial membrane in C2C12 cells. Unlike human kidney embryonic cell line HEK293 cells, the mitochondrial proteinase PARL was not involved in the processing and maturation of StarD7 in C2C12 cells. StarD7 was constantly expressed during myogenic differentiation of C2C12 cells. The siRNA-mediated knockdown of StarD7 in C2C12 cells and human primary myoblasts significantly impaired myogenic differentiation and reduced the expression of myomaker, myomerger and PGC-1α. The reduction in mitochondrial PC levels and oxygen consumption rates, decreased expression of myomaker, myomerger and PGC-1α, as well as impaired myogenic differentiation, were completely restored when the protein was reintroduced into StarD7-knockout C2C12 cells. These results suggest that StarD7 is important for skeletal myogenesis in mammals.

Published
2020
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