Your search keyword '"Hair Cells, Ampulla"' showing total 32 results

1. Electroreception, electrogenesis and electric signal evolution

Author

William G. R. Crampton

Subjects

Fish Proteins, 0106 biological sciences, Sensory Receptor Cells, Ecology (disciplines), Aquatic Science, Biology, 010603 evolutionary biology, 01 natural sciences, Predation, Electric signal, Sensory ecology, Animals, Phylogeny, Ecology, Evolution, Behavior and Systematics, Electric Organ, Phylogenetic inertia, Electroreception, 010604 marine biology & hydrobiology, Electric Conductivity, Fishes, Hair Cells, Ampulla, Gymnotiformes, biology.organism_classification, Adaptation, Physiological, Animal Communication, Phylogeography, Evolutionary biology, Sexual selection, Electric Fish

Abstract

Electroreception, the capacity to detect external underwater electric fields with specialised receptors, is a phylogenetically widespread sensory modality in fishes and amphibians. In passive electroreception, a capacity possessed by c. 16% of fish species, an animal uses low-frequency-tuned ampullary electroreceptors to detect microvolt-range bioelectric fields from prey, without the need to generate its own electric field. In active electroreception (electrolocation), which occurs only in the teleost lineages Mormyroidea and Gymnotiformes, an animal senses its surroundings by generating a weak ( 1 V) electric-organ discharge (EOD) and detecting distortions in the EOD-associated field using high-frequency-tuned tuberous electroreceptors. Tuberous electroreceptors also detect the EODs of neighbouring fishes, facilitating electrocommunication. Several other groups of elasmobranchs and teleosts generate weak ( 10 V) or strong ( 50 V) EODs that facilitate communication or predation, but not electrolocation. Approximately 1.5% of fish species possess electric organs. This review has two aims. First, to synthesise our knowledge of the functional biology and phylogenetic distribution of electroreception and electrogenesis in fishes, with a focus on freshwater taxa and with emphasis on the proximate (morphological, physiological and genetic) bases of EOD and electroreceptor diversity. Second, to describe the diversity, biogeography, ecology and electric signal diversity of the mormyroids and gymnotiforms and to explore the ultimate (evolutionary) bases of signal and receptor diversity in their convergent electrogenic-electrosensory systems. Four sets of potential drivers or moderators of signal diversity are discussed. First, selective forces of an abiotic (environmental) nature for optimal electrolocation and communication performance of the EOD. Second, selective forces of a biotic nature targeting the communication function of the EOD, including sexual selection, reproductive interference from syntopic heterospecifics and selection from eavesdropping predators. Third, non-adaptive drift and, finally, phylogenetic inertia, which may arise from stabilising selection for optimal signal-receptor matching.

Published

2019

2. Establishment of a Gentamicin Cochlear Poisoning Model in Guinea Pigs and Cochlear Nerve Endings Recognition of Ultrasound Signals

Author

Chaoyan Wang, Tiegang Li, Chengcheng Huang, Shusheng Gong, Qian Li, Xinyu Ceng, Yuee Zhou, and Fusen Wang

Subjects

0301 basic medicine, Male, Pathology, medicine.medical_specialty, Guinea Pigs, Guinea pig, 03 medical and health sciences, 0302 clinical medicine, Hair Cells, Auditory, medicine, otorhinolaryngologic diseases, Evoked Potentials, Auditory, Brain Stem, Animals, Prestin, Cochlear Nerve, Cochlea, Ultrasonography, 030102 biochemistry & molecular biology, biology, business.industry, Animal Study, Ultrasound, Cochlear nerve, Hair Cells, Ampulla, General Medicine, Disease Models, Animal, Hair Cells, Auditory, Outer, Auditory brainstem response, medicine.anatomical_structure, Sound, Ultrasonic Waves, Cerebral cortex, biology.protein, Gentamicin, Female, sense organs, Gentamicins, business, 030217 neurology & neurosurgery, medicine.drug

Abstract

BACKGROUND Aminoglycosides, a type of gram-negative antibacterial, are broad-spectrum antibiotics that are highly potent and have satisfactory therapeutic efficacy in the treatment of life-threatening infections. Our study aimed to establish a gentamicin-induced cochlear injury model and to investigate the cochlear nerve endings' recognition of ultrasound signals. MATERIAL AND METHODS A guinea pig cochlear injury model was established by intraperitoneal injection of gentamycin. Auditory brainstem response (ABR) and fMRI an affected cerebral cortex region of interest (ROI) of the cerebral cortex blood oxygenation level dependent (BOLD) effect was induced by bone-conducted ultrasound. Immunofluorescence was used to detect expression of Prestin in outer hair cells, Otoferlin in inner hair cells, and cochlear hair cell microfilament protein (F-Actin). RESULTS For 30-35 KHz bone-conducted ultrasound, the induction rate of ABR threshold or ROI in the control group and the cochlear injury group was 40% and 0%, respectively, and for 80-90 KHz the induction rate was 20% and 20%, respectively. Gentamicin poisoning induced downregulation of expression of Prestin in cochlear outer cochlea, and Otoferlin and F-Actin in cochlear hair cells in different regions. CONCLUSIONS Gentamicin poisoning can cause different degrees of damage to cochlea hair cells in different regions. Guinea pigs with gentamicin poisoning can recognize high-frequency ultrasonic signals.

Published

2018

3. Novel cell types and developmental lineages revealed by single-cell RNA-seq analysis of the mouse crista ampullaris

Author

Heather L Zebroski, Brent A. Wilkerson, Connor Finkbeiner, Alex Chitsazan, Renee C Zhang, Kylie E Beach, Nilasha Sen, and Olivia Bermingham-McDonogh

Subjects

inner ear, 0301 basic medicine, Cell type, Mouse, hair cells, QH301-705.5, Science, Cell, sensory, Biology, General Biochemistry, Genetics and Molecular Biology, Transcriptome, Mice, 03 medical and health sciences, 0302 clinical medicine, Exome Sequencing, medicine, Animals, Inner ear, RNA-Seq, Biology (General), Crista ampullaris, vestibular, General Immunology and Microbiology, Gene Expression Profiling, General Neuroscience, Mesenchymal stem cell, Hair Cells, Ampulla, Genetics and Genomics, Semicircular Ducts, General Medicine, single cell, Cell biology, Mice, Inbred C57BL, Crista, 030104 developmental biology, medicine.anatomical_structure, Medicine, sense organs, Single-Cell Analysis, Developmental biology, 030217 neurology & neurosurgery, Research Article, Developmental Biology

Abstract

This study provides transcriptomic characterization of the cells of the crista ampullaris, sensory structures at the base of the semicircular canals that are critical for vestibular function. We performed single-cell RNA-seq on ampullae microdissected from E16, E18, P3, and P7 mice. Cluster analysis identified the hair cells, support cells and glia of the crista as well as dark cells and other nonsensory epithelial cells of the ampulla, mesenchymal cells, vascular cells, macrophages, and melanocytes. Cluster-specific expression of genes predicted their spatially restricted domains of gene expression in the crista and ampulla. Analysis of cellular proportions across developmental time showed dynamics in cellular composition. The new cell types revealed by single-cell RNA-seq could be important for understanding crista function and the markers identified in this study will enable the examination of their dynamics during development and disease.

Published

2021

4. Extracellular Vesicles from Follicular and Ampullary Fluid Isolated by Density Gradient Ultracentrifugation Improve Bovine Embryo Development and Quality

Author

Krishna Chaitanya Pavani, Osvaldo Américo Bogado Pascottini, An Hendrix, Hadi Atashi, Ann Van Soom, Mojtaba Kafi, Nima Azari Dolatabad, Annelies Raes, Anise Asaadi, Petra Van Damme, and Michael Hoelker

Subjects

0301 basic medicine, Size-exclusion chromatography, Embryonic Development, Oviducts, Catalysis, Article, Inorganic Chemistry, Andrology, Embryo Culture Techniques, lcsh:Chemistry, 03 medical and health sciences, 0302 clinical medicine, Oogenesis, medicine, Centrifugation, Density Gradient, Animals, Humans, Blastocyst, Veterinary Sciences, Physical and Theoretical Chemistry, Molecular Biology, Biology, lcsh:QH301-705.5, Spectroscopy, 030219 obstetrics & reproductive medicine, Chemistry, Organic Chemistry, Hair Cells, Ampulla, Biology and Life Sciences, Embryo, General Medicine, Oocyte, Follicular fluid, follicular fluid, Computer Science Applications, In vitro maturation, 030104 developmental biology, medicine.anatomical_structure, lcsh:Biology (General), lcsh:QD1-999, Culture Media, Conditioned, ampullary oviductal fluid, Oviduct, Density gradient ultracentrifugation, Cattle, Female, extracellular vesicles

Abstract

Extracellular vesicles (EVs) have been isolated from follicular (FF) and ampullary oviduct fluid (AOF), using different isolation methods. However, it is not clear whether different purification methods can affect the functionality of resulting EVs. Here, we compared two methods (OptiPrep&trade, density gradient ultracentrifugation (ODG UC) and single-step size exclusion chromatography (SEC) (qEV IZON&trade, single column)) for the isolation of EVs from bovine FF and AOF. Additionally, we evaluated whether the addition of EVs derived either by ODG UC or SEC from FF or AOF during oocyte maturation would yield extra benefits for embryo developmental competence. The characterization of EVs isolated using ODG UC or SEC from FF and AOF did not show any differences in terms of EV sizes (40&ndash, 400 nm) and concentrations (2.4 &plusmn, 0.2 &times, 1012&minus, 1.8 &plusmn, 1013 particles/mL). Blastocyst yield and quality was higher in groups supplemented with EVs isolated from FF and AOF by ODG UC, with higher total cell numbers and a lower apoptotic cell ratio compared with the other groups (p &lt, 0.05). Supplementing in vitro maturation media with EVs derived by ODG UC from AOF was beneficial for bovine embryo development and quality.

Published

2021

5. A central to peripheral progression of cell cycle exit and hair cell differentiation in the developing mouse cristae

Author

Olivia Bermingham-McDonogh and Amber D. Slowik

Subjects

0301 basic medicine, Organogenesis, Cellular differentiation, Notch signaling pathway, Biology, Article, Mice, 03 medical and health sciences, 0302 clinical medicine, Hearing, Hair Cells, Auditory, otorhinolaryngologic diseases, medicine, Animals, Regeneration, Inner ear, Molecular Biology, Cochlea, Spatial Analysis, Hair cell differentiation, Receptors, Notch, Cell Cycle, Hair Cells, Ampulla, Cell Differentiation, Anatomy, Cell Biology, Cell cycle, Embryonic stem cell, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Bromodeoxyuridine, Female, sense organs, Hair cell, 030217 neurology & neurosurgery, Signal Transduction, Developmental Biology

Abstract

The inner ear contains six distinct sensory organs that each maintains some ability to regenerate hair cells into adulthood. In the postnatal cochlea, there appears to be a relationship between the developmental maturity of a region and its ability to regenerate as postnatal regeneration largely occurs in the apical turn, which is the last region to differentiate and mature during development. In the mature cristae there are also regional differences in regenerative ability, which led us to hypothesize that there may be a general relationship between the relative maturity of a region and the regenerative competence of that region in all of the inner ear sensory organs. By analyzing adult mouse cristae labeled embryonically with BrdU, we found that hair cell birth starts in the central region and progresses to the periphery with age. Since the peripheral region of the adult cristae also maintains active Notch signaling and some regenerative competence, these results are consistent with the hypothesis that the last regions to develop retain some of their regenerative ability into adulthood. Further, by analyzing embryonic day 14.5 inner ears we provide evidence for a wave of hair cell birth along the longitudinal axis of the cristae from the central regions to the outer edges. Together with the data from the adult inner ears labeled with BrdU as embryos, these results suggest that hair cell differentiation closely follows cell cycle exit in the cristae, unlike in the cochlea where they are uncoupled.

Published

2016

6. Forskolin and protein kinase inhibitors differentially affect hair cell potassium currents and transmitter release at the cytoneural junction in the isolated frog labyrinth

Author

Maria Lisa Rossi, Riccardo Fesce, Gemma Rubbini, Rita Canella, and Marta Martini

Subjects

0301 basic medicine, Patch-Clamp Techniques, Potassium Channels, semicircular canal, hair cells, potassium currents, sensory discharge, forskolin, protein kinase inhibitors, Action Potentials, Tissue Culture Techniques, Adenylyl cyclase, chemistry.chemical_compound, 0302 clinical medicine, Membrane potential, Sulfonamides, Forskolin, General Neuroscience, Miniature Postsynaptic Potentials, Rana esculenta, Potassium channel, medicine.anatomical_structure, Hair cell, medicine.drug, medicine.medical_specialty, potassium currents, hair cells, Hair cells, Potassium currents, Protein kinase inhibitors, Semicircular canal, Sensory discharge, Neuroscience (all), semicircular canal, Carbazoles, Biology, Amphibian Proteins, NO, forskolin, 03 medical and health sciences, Internal medicine, Potassium Channel Blockers, medicine, Animals, Patch clamp, Protein kinase A, Colforsin, Hair Cells, Ampulla, Excitatory Postsynaptic Potentials, Potassium channel blocker, Isoquinolines, protein kinase inhibitors, 030104 developmental biology, Endocrinology, chemistry, Potassium, Biophysics, sensory discharge, sense organs, 030217 neurology & neurosurgery

Abstract

The post-transductional elaboration of sensory input at the frog semicircular canal has been studied by correlating the effects of drugs that interfere with phosphorylation processes on: (i) potassium conductances in isolated hair cell and (ii) transmitter release at the cytoneural junction in the intact labyrinth. At hair cells, delayed potassium currents (IKD) undergo voltage- and time-dependent inactivation; inactivation removal requires ATP, is sensitive to kinase blockade, but is unaffected by exogenous application of cyclic nucleotides. We report here that forskolin, an activator of endogenous adenylyl cyclase, enhances IKD inactivation removal in isolated hair cells, but produces an overall decrease in IKD amplitude consistent with the direct blocking action of the drug on several families of K channels. In the intact labyrinth, forskolin enhances transmitter release, consistent with such depression of K conductances. Kinase blockers - H-89 and KT5823 - have been shown to reduce IKD inactivation removal and IKD amplitude at isolated hair cells. In the labyrinth, the effects of these drugs on junctional activity are quite variable, with predominant inhibition of transmitter release, rather than the enhancement expected from the impairment of K currents. The overall action of forskolin and kinase inhibitors on K conductances is similar (depression), but they have opposite effects on transmitter release: this indicates that some intermediate steps between the bioelectric control of hair cell membrane potential and transmitter release are affected in opposite ways and therefore are presumably regulated by protein phosphorylation.

Published

2017

7. Molecular mechanisms and potentials for differentiating inner ear stem cells into sensory hair cells

Author

Quanwen Liu, Jinfu Wang, and Ping Chen

Subjects

Biology, Notch signaling pathway, Mice, Ototoxicity, Utricle, Inner ear, Basic Helix-Loop-Helix Transcription Factors, otorhinolaryngologic diseases, medicine, Animals, Regeneration, Molecular Biology, Vestibular system, Stem cell, Receptors, Notch, Atoh1, Stem Cells, Hair Cells, Ampulla, Cell Differentiation, Anatomy, Cell Biology, Kinocilium, medicine.disease, Cell biology, medicine.anatomical_structure, Organ of Corti, Ear, Inner, sense organs, Hair cell, Signal Transduction, Developmental Biology

Abstract

In mammals, hair cells may be damaged or lost due to genetic mutation, infectious disease, chemical ototoxicity, noise and other factors, causing permanent sensorineural deafness. Regeneration of hair cells is a basic pre-requisite for recovery of hearing in deaf animals. The inner ear stem cells in the organ of Corti and vestibular utricle are the most ideal precursors for regeneration of inner ear hair cells. This review highlights some recent findings concerning the proliferation and differentiation of inner ear stem cells. The differentiation of inner ear stem cells into hair cells involves a series of signaling pathways and regulatory factors. This paper offers a comprehensive analysis of the related studies.

Published

2014

8. Calcium Activated K+ Channels in The Electroreceptor of the Skate Confirmed by Cloning. Details of Subunits and Splicing

Author

Peter N. Kao, Benjamin L. King, Ling Fang Shi, and William T. Clusin

Subjects

0301 basic medicine, Gene isoform, Fish Proteins, BK channel, genetic structures, Protein Sorting Signals, Little skate, Article, 03 medical and health sciences, 0302 clinical medicine, Genetics, Animals, Humans, Protein Isoforms, Amino Acid Sequence, Large-Conductance Calcium-Activated Potassium Channels, Skates, Fish, Cloning, Molecular, Skate, Large-Conductance Calcium-Activated Potassium Channel alpha Subunits, Peptide sequence, Phylogeny, biology, Alternative splicing, Hair Cells, Ampulla, General Medicine, biology.organism_classification, Molecular biology, Calcium-activated potassium channel, Alternative Splicing, 030104 developmental biology, RNA splicing, biology.protein, sense organs, 030217 neurology & neurosurgery

Abstract

Elasmobranchs detect small potentials using excitable cells of the ampulla of Lorenzini which have calcium-activated K(+) channels, first described in 1974. A distinctive feature of the outward current in voltage clamped ampullae is its apparent insensitivity to voltage. The sequence of a BK channel α isoform expressed in the ampulla of the skate was characterized. A signal peptide is present at the beginning of the gene. When compared to human isoform 1 (the canonical sequence), the largest difference was absence of a 59 amino acid region from the S8-S9 intra-cellular linker that contains the strex regulatory domain. The ampulla isoform was also compared with the isoform predicted in late skate embryos where strex was also absent. The BK voltage sensors were conserved in both skate isoforms. Differences between the skate and human BK channel included alternative splicing. Alternative splicing occurs at seven previously defined sites that are characteristic for BK channels in general and hair cells in particular. Skate BK sequences were highly similar to the Australian ghost shark and several other vertebrate species. Based on alignment of known BK sequences with the skate genome and transcriptome, there are at least two isoforms of Kcnma1α expressed in the skate. One of the β subunits (β4), which is known to decrease voltage sensitivity, was also identified in the skate genome and transcriptome and in the ampulla. These studies advance our knowledge of BK channels and suggest further studies in the ampulla and other excitable tissues.

Published

2015

9. Can the nystagmus pattern in patients with a ‘light cupula’ be reproduced in hemi-labyrinthectomized subjects during positional alcohol nystagmus 1?

Author

Tatjana Tomanovic and Johan Bergenius

Subjects

Adult, Male, medicine.medical_specialty, Supine position, genetic structures, Positional Nystagmus, Nystagmus, Audiology, Functional Laterality, Endolymph, Postoperative Complications, Nystagmus, Physiologic, Prone Position, Supine Position, Humans, Medicine, Videonystagmography, In patient, Ethanol, medicine.diagnostic_test, business.industry, Hair Cells, Ampulla, General Medicine, Anatomy, Middle Aged, Semicircular Canals, Otorhinolaryngology, Ear, Inner, Head Movements, Female, Lateral semicircular canal, medicine.symptom, business, Gravitation

Abstract

A positional nystagmus pattern compatible with a condition of a light cupula in the lateral semicircular canal seen in clinical patients could be reproduced only partially in hemi-labyrinthectomized subjects during the stage of positional alcohol nystagmus 1 (PAN 1).To mimic the condition of a light cupula in the lateral semicircular canal by using unilaterally deafferented subjects during the stage of PAN 1 and compare the results with those of patients with a light cupula.Five hemi-labyrinthectomized subjects were studied during PAN 1 with videonystagmography when they kept their heads straight forward or turned sideways in the prone and supine positions, respectively. A zero zone, indicating a cupula dysfunction, in which the geotropic nystagmus changed direction during slow head turn in the supine position, was also looked for.When the subjects were examined with their heads turned left or right in the supine or prone positions, the alcohol-induced nystagmus pattern was compatible with that of a light cupula. However, the nystagmus directions at the head straight forward in the prone and supine positions, as well as localization of the zero zones, deviated from the pattern seen in patients with a light cupula.

Published

2011

10. Mechanical amplification by hair cells in the semicircular canals

Author

Richard D. Rabbitt, Richard Boyle, and Stephen M. Highstein

Subjects

Vestibular system, Multidisciplinary, Semicircular canal, Efferent, Hair Cells, Ampulla, Sensory system, Anatomy, Biological Sciences, Stimulus (physiology), Biology, Batrachoidiformes, Mechanotransduction, Cellular, Semicircular Canals, Motion, medicine.anatomical_structure, otorhinolaryngologic diseases, medicine, Animals, Inner ear, sense organs, Mechanotransduction, Neuroscience, Transduction (physiology)

Abstract

Sensory hair cells are the essential mechanotransducers of the inner ear, responsible not only for the transduction of sound and motion stimuli but also, remarkably, for nanomechanical amplification of sensory stimuli. Here we show that semicircular canal hair cells generate a mechanical nonlinearity in vivo that increases sensitivity to angular motion by amplification at low stimulus strengths. Sensitivity at high stimulus strengths is linear and shows no evidence of amplification. Results suggest that the mechanical work done by hair cells contributes ∼ 97 zJ/cell of amplification per stimulus cycle, improving sensitivity to angular velocity stimuli below ∼ 5 °/s (0.3-Hz sinusoidal motion). We further show that mechanical amplification can be inhibited by the brain via activation of efferent synaptic contacts on hair cells. The experimental model was the oyster toadfish, Opsanus tau . Physiological manifestation of mechanical amplification and efferent control in a teleost vestibular organ suggests the active motor process in sensory hair cells is ancestral. The biophysical basis of the motor(s) remains hypothetical, but a key discriminating question may involve how changes in somatic electrical impedance evoked by efferent synaptic action alter function of the motor(s).

Published

2010

11. Morphological change of the cupula due to an ototoxic agent: A comparison with semicircular canal pathology

Author

Go Hasegawa, Rei Motohashi, Koji Otsuka, Taro Inagaki, Ujimoto Konomi, Shigetaka Shimizu, Mamoru Suzuki, and Akira Shimizu

Subjects

Pathology, medicine.medical_specialty, medicine.medical_treatment, Sensory system, Rana, Ototoxicity, medicine, Animals, Inner ear, skin and connective tissue diseases, Saline, Rana catesbeiana, Semicircular canal, Chemistry, Posterior Semicircular Canal, Hair Cells, Ampulla, Semicircular Ducts, General Medicine, Anatomy, medicine.disease, Semicircular Canals, Anti-Bacterial Agents, medicine.anatomical_structure, Otorhinolaryngology, Ampullae of Lorenzini, Microscopy, Electron, Scanning, sense organs, Gentamicins

Abstract

The cupula shows various degrees of changes after gentamicin (GM) injection into the inner ear, with or without damage of the sensory cells. This cupula change may be a part of the etiology of peripheral vertigo, and is also potentially one of the mechanisms of reduced caloric response.To observe the morphological changes of the cupula after injecting GM in the frog inner ear and to compare the changes of the cupula with those of the ampullary sensory cells.We injected 300 microg (7.5 microl) of GM into the inner ear of 30 bullfrogs (Rana catesbeiana) using a microsyringe under ether anesthesia. The same amount of saline was injected into the other ear as control. The cupulae were observed at 3, 7, and 14 days after GM injection by stereoscopic microscope. The ampullae were fixed, and the sensory cells were assessed using a scanning electron microscope (SEM). The correlation between the changes in the cupula and sensory cells was evaluated using our own scale.In over half of the cupulae in the 7- and 14-day groups, cupula changes such as shrinkage were observed. In about 50% of the total cases, the degree of cupula and sensory cell change correlated in the two groups. In the 14-day group, these changes were more marked. However, there were cases in which the changes of the cupula and sensory cells did not correlate, indicating that the cupula alone can sustain changes without sensory cell damage.

Published

2009

12. Functional Assessment of Pancreatic β-Cell Area in Humans

Author

Wolfgang Schmidt, Christophe A. Müller, Juris J. Meier, Waldemar Uhl, Henning Schrader, Bjoern A. Menge, Andrea Tannapfel, and Thomas G. K. Breuer

Subjects

Adenoma, Blood Glucose, Male, medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, chemistry.chemical_compound, Internal medicine, Diabetes mellitus, Insulin-Secreting Cells, Pancreatitis, Chronic, Internal Medicine, medicine, Diabetes Mellitus, Ingestion, Humans, Insulin, Pancreatitis, chronic, C-Peptide, business.industry, C-peptide, Ampulla of Vater, Hair Cells, Ampulla, Fasting, medicine.disease, Pancreatic Neoplasms, medicine.anatomical_structure, Endocrinology, chemistry, Islet Studies, Pancreatitis, Original Article, Female, Pancreas, business

Abstract

OBJECTIVE β-Cell mass declines progressively during the course of diabetes, and various antidiabetic treatment regimens have been suggested to modulate β-cell mass. However, imaging methods allowing the monitoring of changes in β-cell mass in vivo have not yet become available. We address whether pancreatic β-cell area can be assessed by functional test of insulin secretion in humans. RESEARCH DESIGN AND METHODS A total of 33 patients with chronic pancreatitis (n = 17), benign pancreatic adenomas (n = 13), and tumors of the ampulla of Vater (n = 3) at various stages of glucose tolerance were examined with an oral glucose load before undergoing pancreatic surgery. Indexes of insulin secretion were calculated and compared with the fractional β-cell area of the pancreas. RESULTS β-Cell area was related to fasting glucose concentrations in an inverse linear fashion (r = −0.53, P = 0.0014) and to 120-min postchallenge glycemia in an inverse exponential fashion (r = −0.89). β-Cell area was best predicted by a C-peptide–to–glucose ratio determined 15 min after the glucose drink (r = 0.72, P < 0.0001). However, a fasting C-peptide–to–glucose ratio already yielded a reasonably close correlation (r = 0.63, P < 0.0001). Homeostasis model assessment (HOMA) β-cell function was unrelated to β-cell area. CONCLUSIONS Glucose control is closely related to pancreatic β-cell area in humans. A C-peptide–to–glucose ratio after oral glucose ingestion appears to better predict β-cell area than fasting measures, such as the HOMA index.

Published

2009

13. Morphological Characteristics of the Lateral Line Receptors of Hynobius leechii (Urodela: Hynobiidae)

Author

Jung-Hyun Lee and Daesik Park

Subjects

Male, Larva, Hynobius leechii, media_common.quotation_subject, Age Factors, Hair Cells, Ampulla, Metamorphosis, Biological, Urodela, Sensory hair, Anatomy, Kinocilium, Biology, biology.organism_classification, Lateral Line System, Microscopy, Electron, Scanning, Animals, Female, Animal Science and Zoology, Metamorphosis, External fertilization, Receptor, Mantle (mollusc), Mechanoreceptors, media_common

Abstract

Morphological characteristics of the lateral line receptors, specifically the superficial neuromast, the pit organ, and the ampullary organ, are described and compared among larval, metamorphosed, and both female and male adult Hynobius leechii. The distribution and morphologies of the lateral line receptors are similar to those of other urodeles. During the transition from a larval to an adult salamander, the number of receptors is generally reduced, but their sizes increase. Other morphological changes also occur, such as the development of a more distinct mantle cell boundary at the epidermal surface of the adult ampullary and pit organs. In particular, we found kinocilia on the sensory hair cells of the ampullary organs of both larval and adult salamanders, and, for the first time, we describe two different morphologies of the pit organ in urodeles. The detailed description of the pit organ represents only the second study of its kind in urodeles. However, our comparison of lateral line receptors between larval and adult salamanders is the first of its kind for salamanders that utilize external fertilization.

Published

2008

14. Histamine H1 receptors are expressed in mouse and frog semicircular canal sensory epithelia

Author

Giulia Gastaldi, Laura Botta, Umberto Laforenza, Paolo Valli, Paola Perin, Simona Tritto, Sergio Masetto, Stefano Valli, Valeria Zampini, and G. Zucca

Subjects

Immunoblotting, Histamine H1 receptor, Biology, Mice, chemistry.chemical_compound, Histamine receptor, Species Specificity, otorhinolaryngologic diseases, medicine, Animals, Receptors, Histamine H3, Receptors, Histamine H1, Receptor, Vestibular system, Semicircular canal, Reverse Transcriptase Polymerase Chain Reaction, General Neuroscience, Hair Cells, Ampulla, Histaminergic, Rana esculenta, Semicircular Ducts, Immunohistochemistry, Cell biology, Mice, Inbred C57BL, medicine.anatomical_structure, Vestibular Diseases, chemistry, Vertigo, sense organs, Hair cell, Neuroscience, Histamine

Abstract

Histamine-related drugs are commonly used in the treatment of vertigo and related vestibular disorders. Their site and mechanism of action, however, are still poorly understood. To increase our knowledge of the histaminergic system in the vestibular organs, we have investigated the expression of H1 and H3 histamine receptors in the frog and mouse semicircular canal sensory epithelia. Analysis was performed by mRNA reverse transcriptase-PCR, immunoblotting and immunocytochemistry experiments. Our data show that both frog and mouse vestibular epithelia express H1 receptors. Conversely no clear evidence for H3 receptors expression was found.

Published

2008

15. Vestibular evoked myogenic potentials of children with inner ear malformations before and after cochlear implantation

Author

Yusuke Akamatsu, Kimitaka Kaga, Yukiko Shinjo, Yulian Jin, and Tatsuya Yamasoba

Subjects

Male, medicine.medical_specialty, Vestibular evoked myogenic potential, medicine.medical_treatment, Sensory system, Audiology, Deafness, Vestibular Nerve, Prosthesis Design, Otolithic Membrane, Neck Muscles, Reference Values, Cochlear implant, otorhinolaryngologic diseases, medicine, Caloric Tests, Reaction Time, Humans, Inner ear, Saccule and Utricle, Child, Postural Balance, Cochlea, Vestibular system, Neurons, Afferent Pathways, medicine.diagnostic_test, business.industry, Electromyography, Hair Cells, Ampulla, Electronystagmography, Anatomy, General Medicine, Vestibular Function Tests, Evoked Potentials, Motor, Cochlear Implantation, Semicircular Canals, medicine.anatomical_structure, Cochlear Implants, Otorhinolaryngology, Child, Preschool, Ear, Inner, Female, sense organs, Saccule, business, Tomography, X-Ray Computed

Abstract

Our results show that among the patients with inner ear malformations, there were two patients with sensory cells of sacculus and inferior vestibular neurons and at least five patients with inferior vestibular neurons only, but no patients without sensory cells and vestibular neurons, as determined on the basis of vestibular evoked myogenic potentials (VEMPs).The aim of this study was to investigate whether sensory cells of sacculus or inferior vestibular neurons or both are present in cochlear implant patients with inner ear malformations, particularly common cavity (CC) deformity, using VEMPs.Seven children with inner ear malformation who underwent cochlear implantation (CI) participated in this study. The patients had CC deformity (n=2), incomplete partition type I (n=2), incomplete partition type II (n=1), or a narrow internal auditory canal (IAC) (n=2). It was possible to record VEMPs before and after CI in three patients and not before but after CI in four patients. After surgery, VEMPs were recorded with the cochlear implant device switched both off and on.Before the CI, two patients showed VEMPs and one patient showed no VEMPs, whereas in four patients no VEMPs could be recorded. All the patients showed VEMPs with the cochlear implant on.

Published

2008

16. Role of saposin C and D in auditory and vestibular function

Author

Lawrence R, Lustig, Sean, Alemi, Ying, Sun, Gregory, Grabowski, and Omar, Akil

Subjects

Hearing Tests, DNA Mutational Analysis, Otoacoustic Emissions, Spontaneous, Hair Cells, Ampulla, Cell Count, Mice, Transgenic, DNA, Saposins, Disease Models, Animal, Mice, Phenotype, Vestibular Diseases, Mutation, Animals, Vestibule, Labyrinth, Hearing Loss

Abstract

Saposins are small proteins derived from a precursor protein, prosaposin. Each of the four saposins (A-D) is necessary for the activity of lysosomal glycosphingolipid hydrolases. Individual saposin mutations lead to lysosomal storage diseases, some of which are associated with hearing loss. Here we evaluate the effects of the loss of saposins C and D on auditory and vestibular function in transgenic mice.Transgenic mice with either loss of saposin C function or a combined loss of saposin C + D function were studied. Light microscopy and immunofluorescence were used to evaluate histologic and morphologic changes in the auditory and vestibular organs. Acoustic brainstem response thresholds and distortion product otoacoustic emissions were used to study the auditory phenotype.A null mutation of saposin C did not result in any identifiable histologic changes or loss of hearing through postnatal day 55. Combined losses of saposins C and D similarly did not result in any changes in organ of Corti histology or loss of hearing. However, inclusions within the vestibular end organs was noted, consistent with afferent and efferent neuronal sprouting, although to a much milder degree than seen in the previously studied prosaposin knockout mouse.Loss of saposin C and D function, although causing mild phenotypic changes in the vestibular end organs, otherwise results in minimal functional impairment and no changes in the auditory system. It is more likely that the auditory and vestibular effects of the loss of prosaposin are mediated through the actions of saposin A and/or B.NA.

Published

2015

17. Morphology of the teleost ampullary organs in marine salmontail catfish Neoarius graeffei (Pisces: Ariidae) with comparative analysis to freshwater and estuarine conspecifics

Author

Arnault R G, Gauthier, Darryl L, Whitehead, Michael B, Bennett, and Ian R, Tibbetts

Subjects

Rivers, Hair Cells, Ampulla, Animals, Catfishes, Ecosystem

Abstract

We hypothesized that due to the relative conductivity of the environment, and to maintain sensory function, ampullary organs of marine Neoarius graeffei would differ morphologically from those described previously for estuarine and freshwater conspecifics. Unlike the ampullary systems of N. graeffei from freshwater and estuarine habitats, the ampullary pores of marine specimens occur in two distinct patterns; numerous pores seemingly randomly scattered on the head and ventro-lateral regions of the body, and pores arranged in distinctive vertical lines above the lateral line on the dorso-lateral body of the fish. Light and electron microscopy revealed that the ampullary organs also differed morphologically from estuarine and freshwater specimens in the presence of longer ampullary canals, a hitherto unreported canal wall composition, and in the collagen sheath surrounding both the canal and the ampulla proper within dermal connective tissues. Ampullary pores were wider in marine individuals and opened to the longest ampullary canals reported for this species. The canal wall was lined by cuboidal and squamous epithelial cells. Each ampullary canal opened into a single ampulla proper containing significantly more receptor cells than estuarine and freshwater conspecifics. The distribution of ampullary pores as well as the microstructure of the ampullary organs indicates that the electrosensory system of marine N. graeffei differs from those of estuarine and freshwater specimens in ways that would be expected to maintain the functionality of the system in a highly conductive, fully marine environment, and reveals the remarkable plasticity of this species' ampullary system in response to habitat conductivity.

Published

2014

18. Improved Biolistic Transfection of Hair Cells

Author

Peter G. Gillespie, Hongyu Zhao, and Matthew R. Avenarius

Subjects

Mouse, Stereocilia (inner ear), lcsh:Medicine, Otology, Gene gun, Mice, 0302 clinical medicine, Bullfrog, lcsh:Science, 0303 health sciences, Multidisciplinary, Microscopy, Confocal, Rana catesbeiana, integumentary system, Neuronal Morphology, Transfection, Anatomy, Animal Models, Chicken, Sensory Systems, Cell biology, Basilar membrane, Auditory System, embryonic structures, Medicine, Research Article, animal structures, Recombinant Fusion Proteins, Biology, Fluorescence, 03 medical and health sciences, Model Organisms, otorhinolaryngologic diseases, Animals, Actin, Cochlea, 030304 developmental biology, lcsh:R, Hair Cells, Ampulla, Biolistics, Fusion protein, Actins, Otorhinolaryngology, Cellular Neuroscience, lcsh:Q, sense organs, Molecular Neuroscience, Chickens, 030217 neurology & neurosurgery, Neuroscience

Abstract

Transient transfection of hair cells has proven challenging. Here we describe modifications to the Bio-Rad Helios Gene Gun that, along with an optimized protocol, improve transfection of bullfrog, chick, and mouse hair cells. The increased penetrating power afforded by our method allowed us to transfect mouse hair cells from the basal side, through the basilar membrane; this configuration protects hair bundles from damage during the procedure. We characterized the efficiency of transfection of mouse hair cells with fluorescently-tagged actin fusion protein using both the optimized procedure and a published procedure; while the efficiency of the two methods was similar, the morphology of transfected hair cells was improved with the new procedure. In addition, using the improved method, we were able to transfect hair cells in the bullfrog sacculus and chick cochlea for the first time. We used fluorescent-protein fusions of harmonin b (USH1C) and PMCA2 (ATP2B2; plasma-membrane Ca(2+)-ATPase isoform 2) to examine protein distribution in hair cells. While PMCA2-EGFP localization was similar to endogenous PMCA2 detected with antibodies, high levels of harmonin-EGFP were found at stereocilia tapers in bullfrog and chick, but not mouse; by contrast, harmonin-EGFP was concentrated in stereocilia tips in mouse hair cells.

Published

2012

19. Evolution of electrosensory ampullary organs: conservation of Eya4 expression during lateral line development in jawed vertebrates

Author

Melinda S, Modrell and Clare V H, Baker

Subjects

Ambystoma mexicanum, Parvalbumins, Hair Cells, Ampulla, Trans-Activators, Animals, Gene Expression Regulation, Developmental, Eye Proteins, Biological Evolution, Mechanoreceptors, Article, Lateral Line System

Abstract

The lateral line system of fishes and amphibians comprises two ancient sensory systems: mechanoreception and electroreception. Electroreception is found in all major vertebrate groups (i.e. jawless fishes, cartilaginous fishes, and bony fishes); however, it was lost in several groups including anuran amphibians (frogs) and amniotes (reptiles, birds, and mammals), as well as in the lineage leading to the neopterygian clade of bony fishes (bowfins, gars, and teleosts). Electroreception is mediated by modified "hair cells," which are collected in ampullary organs that flank lines of mechanosensory hair cell containing neuromasts. In the axolotl (a urodele amphibian), grafting and ablation studies have shown a lateral line placode origin for both mechanosensory neuromasts and electrosensory ampullary organs (and the neurons that innervate them). However, little is known at the molecular level about the development of the amphibian lateral line system in general and electrosensory ampullary organs in particular. Previously, we identified Eya4 as a marker for lateral line (and otic) placodes, neuromasts, and ampullary organs in a shark (a cartilaginous fish) and a paddlefish (a basal ray-finned fish). Here, we show that Eya4 is similarly expressed during otic and lateral line placode development in the axolotl (a representative of the lobe-finned fish clade). Furthermore, Eya4 expression is specifically restricted to hair cells in both neuromasts and ampullary organs, as identified by coexpression with the calcium-buffering protein Parvalbumin3. As well as identifying new molecular markers for amphibian mechanosensory and electrosensory hair cells, these data demonstrate that Eya4 is a conserved marker for lateral line placodes and their derivatives in all jawed vertebrates.

Published

2012

20. Geometrical and volume changes of the membranous vestibular labyrinth in guinea pigs with endolymphatic hydrops

Author

Lin Yang, Cheng Hua, Caiqin Wu, Peidong Dai, Tianyu Zhang, and Keqiang Wang

Subjects

Male, animal structures, Guinea Pigs, Nystagmus, Biology, Nystagmus, Pathologic, Imaging, Three-Dimensional, Utricle, Vestibular labyrinth, otorhinolaryngologic diseases, medicine, Animals, Endolymphatic Hydrops, Endolymphatic hydrops, Saccule and Utricle, Ampulla, Meniere Disease, Hair Cells, Ampulla, Anatomy, Semicircular Ducts, X-Ray Microtomography, medicine.disease, Disease Models, Animal, medicine.anatomical_structure, Otorhinolaryngology, Ampullae of Lorenzini, Ear, Inner, Female, sense organs, Saccule, medicine.symptom, Meniere's disease

Abstract

Objective: To evaluate geometrical and volume changes of membranous vestibular labyrinths in guinea pigs after endolymphatic hydrops (EH). Methods: The membranous labyrinths of normal guinea pigs and of those with EH for 4 and 8 weeks were reconstructed after being scanned using micro-computed tomography subseqent to being stained in osmium tetroxide (OsO4). The diameters and volumes of the semicircular ducts, ampullae, utricles and saccules were measured based on the three-dimensional models. Results: The diameters of the ampullae and utricles of EH guinea pigs were greater than those of the normal guinea pigs, while there were no significant differences in the diameters of the semicircular ducts among all groups. The volumes of ampullae, utricles and saccules of the EH groups were greater than those of the control group, but there were no changes in volumes of semicircular ducts after EH. Conclusion: The dilations of the membranous vestibular labyrinth in guinea pigs with EH mainly occur at the ampullae, utricles and saccules.

Published

2012

21. Dimethyl Sulfoxide (DMSO) Exacerbates Cisplatin-induced Sensory Hair Cell Death in Zebrafish (Danio rerio)

Author

Peter S. Steyger, Jonathan I. Matsui, Phillip M. Uribe, Martha Sibrian-Vazquez, Melissa A. Mueller, Qi Wang, Julia S. Gleichman, Douglas A. Cotanche, Robert M. Strongin, Matthew D. Kramer, Harvard University--MIT Division of Health Sciences and Technology, and Cotanche, Douglas Allen

Subjects

Cancer Treatment, lcsh:Medicine, Pharmacology, Mass Spectrometry, Animals, Genetically Modified, chemistry.chemical_compound, 0302 clinical medicine, Molecular Cell Biology, Neurobiology of Disease and Regeneration, Drug Interactions, lcsh:Science, Zebrafish, Chromatography, High Pressure Liquid, 0303 health sciences, Multidisciplinary, Microscopy, Confocal, biology, Cell Death, integumentary system, Aminoglycoside, Drug Synergism, Neomycin, Animal Models, Sensory Systems, 3. Good health, Auditory System, Oncology, Medicine, medicine.drug, Research Article, Programmed cell death, Drugs and Devices, Green Fluorescent Proteins, Danio, 03 medical and health sciences, Model Organisms, medicine, Animals, Dimethyl Sulfoxide, Biology, 030304 developmental biology, Cisplatin, Analysis of Variance, Dose-Response Relationship, Drug, Dimethyl sulfoxide, lcsh:R, Hair Cells, Ampulla, Chemotherapy and Drug Treatment, biology.organism_classification, chemistry, Xanthenes, Apoptosis, lcsh:Q, 030217 neurology & neurosurgery, Neuroscience

Abstract

Inner ear sensory hair cells die following exposure to aminoglycoside antibiotics or chemotherapeutics like cisplatin, leading to permanent auditory and/or balance deficits in humans. Zebrafish (Danio rerio) are used to study drug-induced sensory hair cell death since their hair cells are similar in structure and function to those found in humans. We developed a cisplatin dose-response curve using a transgenic line of zebrafish that expresses membrane-targeted green fluorescent protein under the control of the Brn3c promoter/enhancer. Recently, several small molecule screens have been conducted using zebrafish to identify potential pharmacological agents that could be used to protect sensory hair cells in the presence of ototoxic drugs. Dimethyl sulfoxide (DMSO) is typically used as a solvent for many pharmacological agents in sensory hair cell cytotoxicity assays. Serendipitously, we found that DMSO potentiated the effects of cisplatin and killed more sensory hair cells than treatment with cisplatin alone. Yet, DMSO alone did not kill hair cells. We did not observe the synergistic effects of DMSO with the ototoxic aminoglycoside antibiotic neomycin. Cisplatin treatment with other commonly used organic solvents (i.e. ethanol, methanol, and polyethylene glycol 400) also did not result in increased cell death compared to cisplatin treatment alone. Thus, caution should be exercised when interpreting data generated from small molecule screens since many compounds are dissolved in DMSO., National Institutes of Health (U.S.) (DC010998), National Institutes of Health (U.S.) (NIH DC010231), Harvard College (1780- ), Sarah Fuller Foundation for Little Deaf Children

Published

2012

22. Frequency perception and cell injury in the semicircular canal caused by gentamicin

Author

Liang, Chen and Wu-qing, Wang

Subjects

Dose-Response Relationship, Drug, Injections, Subcutaneous, Guinea Pigs, Hair Cells, Ampulla, Semicircular Ducts, Vestibular Function Tests, Vestibular Evoked Myogenic Potentials, Semicircular Canals, Anti-Bacterial Agents, Disease Models, Animal, Microscopy, Electron, Transmission, Microscopy, Electron, Scanning, Reaction Time, Animals, Gentamicins, Pitch Perception

Abstract

The frequency characteristics of the vestibular organ have gained notice in recent years, but the morphologic basis was unknown. This study investigated the gentamicin-induced damage of frequency-selective perception of the horizontal semicircular canal and its morphologic basis.Eighty guinea pigs were randomly divided into four groups, one control group and three experimental groups. The experimental animals received gentamicin subcutaneously for 1 to 3 weeks. Short-latency vestibular evoked potentials evoked by 0.5 and 10 Hz step rotation stimuli following drug administration were recorded, and then the crista ampullaris of the horizontal semicircular canals was investigated by scanning and transmission electron microscopy.Damage to hair cells of the crista ampullaris is concentrated at the apex area first and then extends to the peripheral area of the vestibular crista ampullaris when the gentamicin administration time increased. When only the hair cells at the apex area are damaged, the high-frequency (10 Hz) rotation perception of the crista ampullaris of the horizontal semicircular canal was injured, but perceptions to 0.5 Hz step rotation stimulation remained normal.Gentamicin mainly affects the high-frequency perception function of the crista ampullaris of the horizontal semicircular canal. The hair cells at the central apex area of the crista ampullaris might be responsible for high-frequency rotation perception function.

Published

2012

23. Infrared photostimulation of the crista ampullaris

Author

Suhrud M, Rajguru, Claus-Peter, Richter, Agnella I, Matic, Gay R, Holstein, Stephen M, Highstein, Gregory M, Dittami, and Richard D, Rabbitt

Subjects

Male, Infrared Rays, Lasers, Hair Cells, Ampulla, Action Potentials, Animals, Calcium, Female, Semicircular Ducts, Low-Level Light Therapy, Batrachoidiformes, Photic Stimulation, Perspectives

Abstract

The present results show that the semicircular canal crista ampullaris of the toadfish, Opsanus tau, is sensitive to infrared radiation (IR) applied in vivo. IR pulse trains (∼1862 nm, ∼200 μs pulse⁻¹) delivered to the sensory epithelium by an optical fibre evoked profound changes in phasic and tonic discharge rates of postsynaptic afferent neurons. Phasic afferent responses to pulsed IR occurred with a latency of8 ms while tonic responses developed with a time constant (τ) of 7 ms to 10 s following the onset or cessation of the radiation. Afferents responded to direct optical radiation of the sensory epithelium but did not respond to thermal stimuli that generated nearly equivalent temperature increases of the whole organ. A subset of afferent neurons fired an action potential in response to each IR pulse delivered to the sensory epithelium, at phase-locked rates up to 96 pulses per second. The latency between IR pulses and afferent nerve action potentials was much greater than synaptic delay and spike generation, demonstrating the presence of a signalling delay interposed between the IR pulse and the action potential. The same IR stimulus applied to afferent nerve axons failed to evoke responses of similar magnitude and failed to phase-lock afferent nerve action potentials. The present data support the hypothesis that pulsed IR activates sensory hair cells, thus leading to modulation of synaptic transmission and afferent nerve discharge reported here.

Published

2011

24. Calcium concentration in cochlear endolymph after vestibular labyrinth injury

Author

Ryoukichi Ikeda, Tetsuaki Kawase, Takeshi Oshima, Toshimitsu Kobayashi, and Kazuhiro Nakaya

Subjects

Male, Time Factors, Endocochlear potential, Endolymph, Guinea Pigs, Perilymph, Membrane Potentials, otorhinolaryngologic diseases, medicine, Animals, Inner ear, Cochlea, Vestibular system, Semicircular canal, Chemistry, General Neuroscience, Hair Cells, Ampulla, Anatomy, Semicircular Canals, medicine.anatomical_structure, Vestibule, Calcium, sense organs, Vestibule, Labyrinth

Abstract

The endolymphatic calcium concentration [Ca2+] is essential for acoustic transduction. This study investigated the changes in cochlear function caused by vestibular labyrinth destruction in the acute phase by measurement of the endocochlear potential and endolymphatic [Ca2+].Hartley guinea pigs underwent lateral semicircular canal transection with suctioning of the perilymph, ampullectomy, or destruction of the lateral part of the vestibule. The endocochlear potential and endolymphatic [Ca2+] showed mild change after lateral semicircular canal transection with suctioning or ampullectomy. However, the endocochlear potential decreased drastically and permanently, and the endolymphatic [Ca2+] elevated suddenly but finally normalized after vestibulotomy. Elevated endolymphatic [Ca2+] is important in the disturbance of the mechanism of cochlear function caused by vestibular labyrinth destruction.

Published

2010

25. Exposure to reduced gravity impairs junctional transmission at the semicircular canal in the frog labyrinth

Author

Marta Martini, Luciana Gioglio, Riccardo Fesce, Gemma Rubbini, and Marialisa Rossi

Subjects

Gravity (chemistry), Patch-Clamp Techniques, Rotation, Physiology, Neuromuscular Junction, In Vitro Techniques, Biology, Synaptic Transmission, Rana, Physiology (medical), Physical Stimulation, medicine, Anesthesia, Animals, Decerebrate State, Ear, Inner, Electrophysiology, Evoked Potentials, Excitatory Postsynaptic Potentials, Hair Cells, Ampulla, Muscle Fatigue, Neurons, Afferent, Rana esculenta, Sem, Weightlessness, icircular Canals, Inner ear, Neurons, Afferent, Vestibular system, Semicircular canal, Hair Cells, Ampulla, Anatomy, Semicircular Canals, medicine.anatomical_structure, Ear, Inner, GRENOUILLE

Abstract

The effects of microgravity on frog semicircular canals have been studied by electrophysiological and morphological approaches. Reduced gravity (microG) was simulated by a random positioning machine (RPM), which continually and randomly modified the orientation in space of the anesthetized animal. As this procedure stimulates the semicircular canals, the effect of altered gravity was isolated by comparing microG-treatment with an identical rotary stimulation in the presence of normal gravity (normoG). Electrophysiological experiments were performed in the isolated labyrinth, extracted from the animals after the treatment, and mounted on a turntable. Junctional activity was measured by recording quantal events (mEPSPs) and spikes from the afferent fibers close to the junction, at rest and during rotational stimulation. MicroG-treated animals displayed a marked decrease in the frequency of resting and evoked mEPSP discharge, vs. both control and normoG (mean decrease ∼50%). Spike discharge was also depressed: 57% of microG-treated frogs displayed no spikes at rest and during rotation at 0.1 Hz, vs. 23–31% of control or normoG frogs. Among the firing units, during one cycle of sinusoidal rotation at 0.1 Hz microG-treated units emitted an average of 41.8 ± 8.06 spikes, vs. 77.2 ± 8.19 in controls. Patch-clamp analysis on dissociated hair cells revealed altered Ca2+handling, after microG, consistent with and supportive of the specificity of microG effects. Marked morphological signs of cellular suffering were observed after microG, mainly in the central part of the sensory epithelium. Functional changes due to microgravity were reversible within a few days.

Published

2010

26. [Treatment of labyrinthine diseases--the frontier of experimental studies--Introduction of genes (regeneration of cochlear hair cells and restoration of auditory function)]

Author

Masahiko, Izumikawa, Kohei, Kawamoto, Masao, Yagi, Raphael, Yehoash, Toshio, Yamashita, and Koichi, Tomoda

Subjects

Guinea Pigs, Basic Helix-Loop-Helix Transcription Factors, Gene Transfer Techniques, Hair Cells, Ampulla, Animals, Regeneration, Auditory Threshold

Published

2009

27. Simulation of cupulolithiasis and canalolithiasis by an animal model

Author

Paolo, Valli, Laura, Botta, Gianpiero, Zucca, Stefano, Valli, and Angelo, Buizza

Subjects

Male, Hair Cells, Ampulla, Rana esculenta, In Vitro Techniques, Lithiasis, Proprioception, Calculi, Semicircular Canals, Disease Models, Animal, Endolymph, Otolithic Membrane, Vertigo, Animals, Female, Particulate Matter

Abstract

The physical mechanisms responsible for cupulolithiasis and canalolithiasis have been investigated by two groups of experiments in isolated posterior semicircular canal (SCC) of frog (Rana esculenta L.). First, clouds of 10-30 isolated otoconia were let to fall (snowfall of otoconia) either through the ampulla onto the cupula, or inside the long arm of the canal, opposite to the cupula. Second, microspheres ranging 30 to 350 microm in diameter were gently moved to and fro inside the long arm of the canal by a micromanipulator. The effects were evaluated by recording the firing rate (Nfr) of the ampullary nerve. Snowfall of otoconia produced detectable changes of Nfr only when otoconia got in contact with the cupula, but not when falling through the endolymph. Movement of the microspheres in the canal long arm induced Nfr changes only if the microsphere diameter exceeded about 50 microm. Although the exact microsphere size needed for receptor stimulation may depend on the experimental conditions, these results strongly suggest that debris moving inside a SCC (canalolithiasis) can produce transcupular pressures able to stimulate ampullar receptors only if they have suitable size, whereas isolated otoconia cannot, except when lying on the cupula (cupulolithiasis).

Published

2009

28. Analysis of pre- and postsynaptic activity in the frog semicircular canal following ototoxic insult: differential recovery of background and evoked afferent activity

Author

Ivo Prigioni, Maria Lisa Rossi, Donatella Contini, Laura Botta, Luciana Gioglio, Riccardo Fesce, Giancarlo Russo, Marta Martini, Mariarosa Polimeni, Daniela Calzi, and G. Zucca

Subjects

Vestibular system, medicine.medical_specialty, Time Factors, Frog, Gentamicin, Hair cells, Regeneration, Sensory activity, Receptor potential, Presynaptic Terminals, Action Potentials, Biology, Epithelium, Membrane Potentials, Postsynaptic potential, Internal medicine, medicine, Animals, Neurons, Afferent, Evoked Potentials, Auditory, Neurons, Protein Synthesis Inhibitors, Semicircular canal, Posterior Semicircular Canal, General Neuroscience, Hair Cells, Ampulla, Excitatory Postsynaptic Potentials, Rana esculenta, Afferent, Anatomy, Recovery of Function, Gentamicins, Hair Cells, Ampulla, Nerve Regeneration, Semicircular Canals, Synapses, Crista, medicine.anatomical_structure, Endocrinology, Excitatory postsynaptic potential, Evoked Potentials, Auditory, Hair cell

Abstract

Frogs were treated with a single dose of gentamicin administered intraotically to produce severe degeneration of posterior semicircular canal hair cells and to evaluate the time course of functional damage and recovery both at pre- and postsynaptic level. In isolated canal preparations the endoampullar potential, which reflects the summed receptor potentials of crista hair cells, was progressively reduced in amplitude and completely abolished 6 days after gentamicin treatment. At this time the crista epithelium was devoid of hair cells. The recovery of the endoampullar potential began around 9 days after the ototoxic insult and its amplitude progressively increased to reach, after 20 days, values close to those observed in control experiments. The endoampullar potential amplitude was related to the degree of hair cell regeneration in the crista epithelium. Consistent with the presynaptic damage, the slow generator potential (representing the summed miniature excitatory postsynaptic potential [mEPSP] activity of all posterior nerve fibres) and the resting and evoked spike discharge recorded from the whole ampullar nerve were abolished 6 days after gentamicin treatment. The recovery of the background and evoked afferent activity showed different behaviours. Background spike activity became detectable around 8 days after the ototoxic insult, but was not modulated by canal stimulation at this time, and no generator potential was detected. Moreover, the resting spike frequency fully recovered and reached control values around 15 days after gentamicin treatment, whereas the evoked activity attained normal values only 20 days after the ototoxic insult. These results were confirmed by intracellular recordings from single afferent fibres of the ampullar nerve in intact labyrinth preparations. Absence of any resting and evoked discharge was the most common pattern observed in the early period from 7 to 8 days after gentamicin treatment. Fifty-five percent of impaled afferents were silent while the others showed low resting frequencies of mEPSPs and spikes, and were unresponsive to canal rotation. In the intermediate period from 14 to 15 days after gentamicin treatment, background mEPSP and spike frequencies approached those evaluated in control experiments, but the frequencies of the evoked mEPSPs and spikes were clearly lower than in controls. In the late period, from 18 to 20 days after the ototoxic insult, the impaled afferents showed normal evoked mEPSP and spike frequencies. The present data indicate that the frog semicircular canal completely recovers its pre- and postsynaptic activity following severe ototoxic insult. During the regeneration process, the cytoneural junction regains function and the resting discharge reappears before recovery of mechanoelectrical transduction.

Published

2008

29. Expression of ASIC2 in ciliated cells and stereociliated cells

Author

Takafumi Ninomiya, Tomoyuki Kawamata, Haruyuki Tatsumi, and Shin Kikuchi

Subjects

Nervous system, Male, Cell type, Histology, Phalloidin, Cell, Molecular Sequence Data, Nerve Tissue Proteins, Oviducts, Biology, Pathology and Forensic Medicine, chemistry.chemical_compound, Hair Cells, Auditory, medicine, Animals, Amino Acid Sequence, Cilia, Receptor, Epithelial Sodium Channels, Crista ampullaris, Epididymis, Sequence Homology, Amino Acid, Hair Cells, Ampulla, Cell Biology, Cell biology, Rats, Acid Sensing Ion Channels, Trachea, medicine.anatomical_structure, Degenerin Sodium Channels, chemistry, Immunohistochemistry, Oviduct, Female, Sequence Alignment

Abstract

Acid-sensing ion channel 2 (ASIC2) plays a role as a mechanorecptor and acid receptor in the peripheral and central nervous systems. However, several recent studies have suggested that ASIC2 is expressed in several organs, in addition to the nervous system. We have examined the expression and distribution of ASIC2 in rat ciliated cells (trachea and oviduct) and stereociliated cells (epididymis, Corti organ, and ampullary crest) by immunohistochemistry and transmission electron microscopy (TEM). Immunohistochemistry revealed that ASIC2 was expressed in both ciliated cells and stereociliated cells, but the localization differed between these cell types. In ciliated cells, ASIC2 was coexpressed with a cilial marker (acetylated tubulin). In stereociliated cells stained with a stereocilial marker (phalloidin), ASIC2 was observed in the cell body. Observation by TEM suggested that ASIC2 expression was present at the apical side of the cilial membrane in ciliated cells and at the apical side of the cell body in stereociliated cells. This study thus indicates that the proton receptor ASIC2 is expressed in both ciliated and stereociliated cells.

Published

2007

30. Ultrastructural co-localization of cochlin and type II collagen in the rat semicircular canal

Author

Susumu Shindo, Hiroyuki Mineta, Satoshi Iwasaki, Kunihiro Mizuta, Takahiro Watanabe, Tetsuo Ikezono, Yasuyuki Hashimoto, Maki Arai, and Ruby Pawankar

Subjects

Endolymph, Type II collagen, Nerve Tissue Proteins, Biology, Basement Membrane, Extracellular matrix, Immunolabeling, otorhinolaryngologic diseases, medicine, Animals, Inner ear, Rats, Wistar, Microscopy, Immunoelectron, Collagen Type II, Basement membrane, Extracellular Matrix Proteins, Semicircular canal, General Neuroscience, Hair Cells, Ampulla, Proteins, Epithelial Cells, Anatomy, Immunogold labelling, Semicircular Canals, Cell biology, Extracellular Matrix, Rats, medicine.anatomical_structure, sense organs

Abstract

Cochlin and type II collagen are major constituents of the inner ear extracellular matrix. To investigate the morphological relation of cochlin and type II collagen in the rat semicircular canal, immuno-electronmicroscopic analysis was performed using the post-embedding immunogold method. Immunolabeling for cochlin was detected in the fibrillar substance underlying the supporting epithelium of the sensory cells and beneath the epithelial cells facing the endolymph in the semicircular canals. Immunolabeling for type II collagen was observed in the same fibrillar substance in the subepithelial area. The co-localization of cochlin and type II collagen in the fibrillar substance in the subepithelial area indicate that cochlin may play a role in the structural homeostasis of the vestibule acting in concert with the fibrillar type II collagen bundles.

Published

2007

31. Structure-property relationships in major ampullate spider silk as deduced from polarized FTIR spectroscopy

Author

Jan Sölter, Periklis Papadopoulos, and Friedrich Kremer

Subjects

Models, Molecular, Materials science, Infrared, Protein Conformation, Biophysics, Silk, Molecular physics, symbols.namesake, Spectroscopy, Fourier Transform Infrared, Animals, General Materials Science, Spider silk, Computer Simulation, Soft matter, Fourier transform infrared spectroscopy, Anisotropy, Spectroscopy, Hair Cells, Ampulla, Spiders, Surfaces and Interfaces, General Chemistry, Elasticity, Full width at half maximum, Fourier transform, Models, Chemical, symbols, Stress, Mechanical, Biotechnology

Abstract

Polarized Fourier Transform Infrared (FTIR) spectroscopy is employed to study structure-property relationships in major ampullate spider silk being exposed to an external mechanical strain. From the measured infrared dichroism of aminoacid-residue - specific bands the molecular order parameter, the frequency width at half-maximum (FWHM) and the spectral position of the absorption maximum are determined in dependence on the external strain. For the highly ordered alanine-rich beta sheets a change in the vibrational potential is found for macroscopic strains as low as a few percent. It can be quantitatively described by a quantum-mechanical approach in which the mechanical strain is treated as a weak external perturbation. The immediate microscopic response to the external field proves that beta -sheeted crystals are tightly interconnected by pre-stretched chains as suggested recently (Y. Liu et al., Nat. Mater. 4, 901 (2005)).

Published

2007

32. Uptake of Fluorescent Gentamicin by Peripheral Vestibular Cells after Systemic Administration

Author

Peter S. Steyger, Allan Kachelmeier, Hongzhe Li, Jianping Liu, and Chunfu Dai

Subjects

Fluorescence-lifetime imaging microscopy, Time Factors, Endolymph, lcsh:Medicine, Texas Red, Biology, law.invention, Hair Cells, Vestibular, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Confocal microscopy, law, otorhinolaryngologic diseases, medicine, Animals, lcsh:Science, 030223 otorhinolaryngology, Vestibular Hair Cell, Fluorescent Dyes, Vestibular system, Multidisciplinary, Semicircular canal, lcsh:R, Hair Cells, Ampulla, Semicircular Ducts, Anatomy, medicine.anatomical_structure, chemistry, Transitional Cell, Biophysics, lcsh:Q, Vestibule, Labyrinth, sense organs, Gentamicins, 030217 neurology & neurosurgery, Research Article

Abstract

Objective In addition to cochleotoxicity, systemic aminoglycoside pharmacotherapy causes vestibulotoxicity resulting in imbalance and visual dysfunction. The underlying trafficking routes of systemically-administered aminoglycosides from the vasculature to the vestibular sensory hair cells are largely unknown. We investigated the trafficking of systemically-administered gentamicin into the peripheral vestibular system in C56Bl/6 mice using fluorescence-tagged gentamicin (gentamicin-Texas-Red, GTTR) imaged by scanning laser confocal microscopy to determine the cellular distribution and intensity of GTTR fluorescence in the three semicircular canal cristae, utricular, and saccular maculae at 5 time points over 4 hours. Results Low intensity GTTR fluorescence was detected at 0.5 hours as both discrete puncta and diffuse cytoplasmic fluorescence. The intensity of cytoplasmic fluorescence peaked at 3 hours, while punctate fluorescence was plateaued after 3 hours. At 0.5 and 1 hour, higher levels of diffuse GTTR fluorescence were present in transitional cells compared to hair cells and supporting cells. Sensory hair cells typically exhibited only diffuse cytoplasmic fluorescence at all time-points up to 4 hours in this study. In contrast, non-sensory cells rapidly exhibited both intense fluorescent puncta and weaker, diffuse fluorescence throughout the cytosol. The numbers and size of fluorescent puncta in dark cells and transitional cells increased over time. There is no preferential GTTR uptake by the five peripheral vestibular organs’ sensory cells. Control vestibular tissues exposed to Dulbecco’s phosphate-buffered saline or hydrolyzed Texas Red had negligible fluorescence. Conclusions All peripheral vestibular cells rapidly take up systemically-administered GTTR, reaching peak intensity 3 hours after injection. Sensory hair cells exhibited only diffuse fluorescence, while non-sensory cells displayed both diffuse and punctate fluorescence. Transitional cells may act as a primary pathway for trafficking of systemic GTTR from the vasculature to endolymph prior to entering hair cells.

Published

2015