Your search keyword '"Lina Mullen"' showing total 18 results

1. The Promoter and Multiple Enhancers of the pou4f3 Gene Regulate Expression in Inner Ear Hair Cells

Author

Lina Mullen, Masatsugu Masuda, Yan Li, Kwang Pak, Eduardo Chavez, and Allen F. Ryan

Subjects

0301 basic medicine, Neuroscience (miscellaneous), Mice, Transgenic, Regulatory Sequences, Nucleic Acid, Biology, Article, Conserved sequence, Green fluorescent protein, 03 medical and health sciences, Cellular and Molecular Neuroscience, Gene expression, medicine, Animals, Promoter Regions, Genetic, Enhancer, Gene, Homeodomain Proteins, Regulation of gene expression, Hair Cells, Auditory, Inner, Gene Expression Regulation, Developmental, Molecular biology, Transcription Factor Brn-3C, Mice, Inbred C57BL, Hair Cells, Auditory, Outer, 030104 developmental biology, medicine.anatomical_structure, Neurology, Regulatory sequence, Ear, Inner, sense organs, Hair cell

Abstract

Few enhancers that target gene expression to inner ear hair cells (HCs) have been identified. Using transgenic analysis of enhanced green fluorescent protein (eGFP) reporter constructs and bioinformatics, we evaluated the control of pou4f3 gene expression, since it is expressed only in HCs within the inner ear and continues to be expressed throughout life. An 8.5-kb genomic DNA fragment 5' to the start codon, containing three regions of high cross-species homology, drove expression in all embryonic and neonatal HCs, and adult vestibular and inner HCs, but not adult outer HCs. Transgenes with 0.4, 0.8, 2.5, or 6.5 kb of 5' DNA did not produce HC expression. However, addition of the region from 6.5 to 7.2 kb produced expression in vestibular HCs and neonatal basal turn outer HCs, which also implicated the region from 7.2 to 8.5 kb in inner and apical outer HC expression. Deletion of the region from 0.4 to 5.5 kb 5' from the 8.5-kb construct did not affect HC expression, further indicating lack of HC regulatory elements. When the region from 1 to 0.4 kb was replaced with the minimal promoter of the Ela1 gene, HC expression was maintained but at a drastically reduced level. Bioinformatics identified regions of highly conserved sequence outside of the 8.5 kb, which contained POU4F3-, GFI1-, and LHX3-binding sites. These regions may be involved in maintaining POU4F3 expression in adult outer HCs. Our results identify separate enhancers at various locations that direct expression to different HC types at different ages and determine that 0.4 kb of upstream sequence determines expression level. These data will assist in the identification of mutations in noncoding, regulatory regions of this deafness gene.

Published

2016

2. Regulation of POU4F3 gene expression in hair cells by 5′ DNA in mice

Author

Allen F. Ryan, Didier Dulon, Masatsugu Masuda, Lina Mullen, Kwang Pak, Yan Li, and Linda Erkman

Subjects

Chromatin Immunoprecipitation, Transgene, Mice, Transgenic, Biology, Transfection, Polymerase Chain Reaction, Article, Cell Line, Green fluorescent protein, E-Box Elements, Mice, Gene expression, Basic Helix-Loop-Helix Transcription Factors, Animals, Enhancer, Gene, Oligonucleotide Array Sequence Analysis, Homeodomain Proteins, Regulation of gene expression, Hair Cells, Auditory, Inner, General Neuroscience, HEK 293 cells, DNA, Molecular biology, Transcription Factor Brn-3C, Gene Expression Regulation, Ectopic expression, sense organs

Abstract

The POU-domain transcription POU4F3 is expressed in the sensory cells of the inner ear. Expression begins shortly after commitment to the hair cell (HC) fate, and continues throughout life. It is required for terminal HC differentiation and survival. To explore regulation of the murine Pou4f3 gene, we linked enhanced green fluorescent protein (eGFP) to 8.5 kb of genomic sequence 5' to the start codon in transgenic mice. eGFP was uniformly present in all embryonic and neonatal HCs. Expression of eGFP was also observed in developing Merkel cells and olfactory neurons as well as adult inner and vestibular HCs, mimicking the normal expression pattern of POU4F3 protein, with the exception of adult outer HCs. Apparently ectopic expression was observed in developing inner ear neurons. On a Pou4f3 null background, the transgene produced expression in embryonic HCs which faded soon after birth both in vivo and in vitro. Pou4f3 null HCs treated with caspase 3 and 9 inhibitors survived longer than untreated HCs, but still showed reduced expression of eGFP. The results suggest the existence of separate enhancers for different HC types, as well as strong autoregulation of the Pou4f3 gene. Bioinformatic analysis of four divergent mammalian species revealed three highly conserved regions within the transgene: 400 bp immediately 5' to the Pou4f3 ATG, a short sequence at -1.3 kb, and a longer region at -8.2 to -8.5 kb. The latter contained E-box motifs that bind basic helix-loop-helix (bHLH) transcription factors, including motifs activated by ATOH1. Cotransfection of HEK293 or VOT-E36 cells with ATOH1 and the transgene as a reporter enhanced eGFP expression when compared with the transgene alone. Chromatin immunoprecipitation of the three highly conserved regions revealed binding of ATOH1 to the distal-most conserved region. The results are consistent with regulation of Pou4f3 in HCs by ATOH1 at a distal enhancer.

Published

2011

3. Laminin and fibronectin modulate inner ear spiral ganglion neurite outgrowth in anin vitro alternate choice assay

Author

Amaretta Evans, Lina Mullen, Elliot E. Hui, Sangeeta N. Bhatia, Eduardo Chavez, Allen F. Ryan, and Sara Euteneuer

Subjects

Neurite, In Vitro Techniques, Rats, Sprague-Dawley, Cellular and Molecular Neuroscience, Developmental Neuroscience, Laminin, Neurites, medicine, Animals, Inner ear, Growth cone, Cells, Cultured, Spiral ganglion, Dose-Response Relationship, Drug, biology, Immunohistochemistry, Fibronectins, Rats, Cell biology, Fibronectin, medicine.anatomical_structure, Animals, Newborn, Organ of Corti, biology.protein, sense organs, Spiral Ganglion, Neuroscience, Filopodia

Abstract

Extracellular matrix (ECM) mole- cules have been shown to function as cues for neurite guidance in various populations of neurons. Here we show that laminin (LN) and fibronectin (FN) presented in stripe micro-patterns can provide guidance cues to neonatal (P5) inner ear spiral ganglion (SG) neurites. The response to both ECM molecules was dose-depend- ent. In a LN versus poly-L-lysine (PLL) assay, neurites were more often observed on PLL at low coating con- centrations (5 and 10 lg/mL), while they were more often on LN at a high concentration (80 lg/mL). In a FN versus PLL assay, neurites were more often on PLL than on FN stripes at high coating concentrations (40 and 80 lg/mL). In a direct competition between LN and FN, neurites were observed on LN significantly more often than on FN at both 10 and 40 lg/mL. The data suggest a preference by SG neurites for LN at high con- centrations, as well as avoidance of both LN at low and FN at high concentrations. The results also support a potential model for neurite guidance in the developing inner ear in vivo. LN, in the SG and osseus spiral lamina may promote SG dendrite growth toward the organ of Corti. Within the organ of Corti, lower concentrations of LN may slow neurite growth, with FN beneath each row of hair cells providing a stop or avoidance signal. This could allow growth cone filopodia increased time to sample their cellular targets, or direct the fibers upward toward the hair cells. ' 2007 Wiley Periodicals, Inc. Develop

Published

2007

4. Environmental Micropatterning for the Study of Spiral Ganglion Neurite Guidance

Author

Allen F. Ryan, Lina Mullen, Stefan Dazert, Amaretta Evans, and John H. Wittig

Subjects

Body Patterning, Neurite, Physiology, Cellular differentiation, Biocompatible Materials, Speech and Hearing, Ganglia, Spinal, Cell Adhesion, Neurites, medicine, Animals, A fibers, Growth cone, Cells, Cultured, Spiral ganglion, Cell Size, Neurons, Chemistry, Cell Differentiation, Immunohistochemistry, Sensory Systems, Rats, medicine.anatomical_structure, Animals, Newborn, Otorhinolaryngology, Biophysics, Filopodia, Neuroscience, Micropatterning

Abstract

The projection of neuronal processes is guided by a variety of soluble and insoluble factors, which are sensed by a fiber’s growth cone. It is the differential distribution of such guidance cues that determine the direction in which neurites grow. The growth cone senses these cues on a fine scale, using extensible filopodia that range from a few to tens of µm in length. In order to study the effects of guidance cues on spiral ganglion (SG) neurites, we have used methods for distributing both soluble and insoluble cues on a scale appropriate for sensing by growth filopodia. The scale of these methods are at the micro, rather than nano, level to match the sensing range of the growth cone. Microfluidics and transfected cells were used to spatially localize tropic factors within the fluid environment of extending neurites. Micropatterning was used to present neurites with stripes of insoluble factors. The results indicate that differentially distributed permissive, repulsive and stop signals can control the projection of SG neurites. Implications for future micropatterning studies, for SG development and for the growth of deafferented SG dendrites toward a cochlear implant are discussed.

Published

2006

5. The effects of laminin-1 on spiral ganglion neurons are dependent on the MEK/ERK signaling pathway and are partially independent of Ras

Author

Kwang Pak, Sean D. Palacios, Allen F. Ryan, Stefan Dazert, Christoph Aletsee, Dominik Brors, and Lina Mullen

Subjects

MAPK/ERK pathway, Cell signaling, Neurite, Pyridines, Mitogen-activated protein kinase kinase, Methionine, Nitriles, Butadienes, Neurites, Animals, Cells, Cultured, Mitogen-Activated Protein Kinase Kinases, Neurons, Ras Inhibitor, biology, Kinase, Imidazoles, Sensory Systems, Rats, Cell biology, Biochemistry, Mitogen-activated protein kinase, ras Proteins, biology.protein, Laminin, Mitogen-Activated Protein Kinases, Signal transduction, Spiral Ganglion, Signal Transduction

Abstract

Laminin-1 (LN) is expressed along the route of neural growth from spiral ganglion (SG) neurons towards the developing organ of Corti, and has been shown to enhance neurite outgrowth from SG neurons in vitro. Signal transduction pathways linking LN signaling at the cell membrane to the cell nucleus can involve a variety of signaling molecules. Data from other systems suggest the potential involvement of the small G protein Ras, and the mitogen-activated protein kinases (MAPKs) Erk and/or p38. To assess these possibilities, the length and number of processes extending from SG explants cultured on LN-coated surfaces were evaluated after treatment with the Ras inhibitor FTI-277, the p38 inhibitor SB203580 and MAPK kinase (MEK) inhibitor U0126, which operates immediately upstream of the Erk MAPK. Treatment with the Ras inhibitor at levels known to inhibit the H- and N-Ras isoforms had no effect, while FTI-277 levels known to inhibit K-Ras reduced only neurite length. Suppression of MEK resulted in a decrease of both parameters, while incubation with the p38 inhibitor had no effect. The results of this study suggest that MEK plays a central role in LN signaling in SG neurites. While K-Ras signaling may participate in MEK-dependent increases in neurite length, the MEK-dependent increase in neurite number appears to be activated by a different intracellular pathway.

Published

2002

6. Neurotrophins differentially stimulate the growth of cochlear neurites on collagen surfaces and in gels

Author

Joanna, Xie, Kwang, Pak, Amaretta, Evans, Andy, Kamgar-Parsi, Stephen, Fausti, Lina, Mullen, and Allen Frederic, Ryan

Subjects

inner ear, extracellular matrix, grants-supported paper, neurite guidance, neurotrophin, cochlear implant, collagen gel, neuron, Peripheral Nerve Injury and Neural Regeneration, otorhinolaryngologic diseases, peripheral nerve injury, sense organs, neural regeneration, neuroregeneration

Abstract

The electrodes of a cochlear implant are located far from the surviving neurons of the spiral ganglion, which results in decreased precision of neural activation compared to the normal ear. If the neurons could be induced to extend neurites toward the implant, it might be possible to stimulate more discrete subpopulations of neurons, and to increase the resolution of the device. However, a major barrier to neurite growth toward a cochlear implant is the fluid filling the scala tympani, which separates the neurons from the electrodes. The goal of this study was to evaluate the growth of cochlear neurites in three-dimensional extracellular matrix molecule gels, and to increase biocompatibility by using fibroblasts stably transfected to produce neurotrophin-3 and brain-derived neurotrophic factor. Spiral ganglion explants from neonatal rats were evaluated in cultures. They were exposed to soluble neurotrophins, cells transfected to secrete neurotrophins, and/or collagen gels. We found that cochlear neurites grew readily on collagen surfaces and in three-dimensional collagen gels. Co-culture with cells producing neurotrophin-3 resulted in increased numbers of neurites, and neurites that were longer than when explants were cultured with control fibroblasts stably transfected with green fluorescent protein. Brain-derived neurotrophic factor-producing cells resulted in a more dramatic increase in the number of neurites, but there was no significant effect on neurite length. It is suggested that extracellular matrix molecule gels and cells transfected to produce neurotrophins offer an opportunity to attract spiral ganglion neurites toward a cochlear implant.

Published

2014

7. Transgenic Mutations Affecting the Inner Ear

Author

Lina Mullen and Allen F. Ryan

Subjects

medicine.anatomical_structure, Transgene, medicine, Inner ear, Biology, Cell biology

Published

2001

8. The Disintegrin Kistrin Inhibits Neurite Extension from Spiral Ganglion Explants Cultured on Laminin

Author

Allen F. Ryan, Kwang Pak, David W. Kim, Lina Mullen, Christoph Aletsee, Dominik Brors, and Stefan Dazert

Subjects

Neurite, Physiology, Disintegrins, Integrin, Rats, Sprague-Dawley, Extracellular matrix, Speech and Hearing, Laminin, Culture Techniques, Neurites, medicine, Disintegrin, Animals, Receptor, Spiral ganglion, Dose-Response Relationship, Drug, biology, Tenascin, Immunohistochemistry, Sensory Systems, Sensory neuron, Rats, Cell biology, medicine.anatomical_structure, Otorhinolaryngology, biology.protein, Peptides, Spiral Ganglion, Neuroscience

Abstract

The influence of laminin-1 (LN) and tenascin-C (TN), extracellular matrix molecules expressed spatially and temporally along the neural growth route from spiral ganglion (SG) neurons to the cochlear sensory cells, was evaluated in cultured SG explants from postnatal day 4 rats. Increasing concentrations of LN resulted in a strong, dose-dependent increase in the length of neurites and in a higher number of neural processes, while varying TN concentrations had relatively minor effects on both parameters. The results suggest differential receptor activation by LN and TN. When explants grown on LN were treated with Kistrin, an inhibitor of the αvβ3 integrin, the LN-induced increase in neurite length was reduced in a dose-dependent manner. However, the number of extending neurites was not affected, indicating that different receptors mediate this response, perhaps by increasing neuronal survival.

Published

2001

9. Characterization of a Tight Molecular Complex between Integrin α6β4 and Laminin-5 Extracellular Matrix

Author

Vito Quaranta, Anthony J. Pelletier, Susan Z. Domanico, Jutta Falk-Marzillier, and Lina Mullen

Subjects

Integrins, animal structures, Macromolecular Substances, Molecular Sequence Data, Integrin, Biophysics, Ligands, Biochemistry, Cell-free system, Receptors, Laminin, Extracellular matrix, Antigens, Neoplasm, Laminin, Tumor Cells, Cultured, medicine, Animals, Humans, Avidity, Amino Acid Sequence, Receptor, Molecular Biology, Integrin alpha6beta4, Basement membrane, Cell-Free System, biology, urogenital system, Chemistry, Carcinoma, Cell Biology, Epithelium, Extracellular Matrix, Rats, Cell biology, medicine.anatomical_structure, Urinary Bladder Neoplasms, Antigens, Surface, embryonic structures, biology.protein, biological phenomena, cell phenomena, and immunity, Cell Adhesion Molecules, hormones, hormone substitutes, and hormone antagonists

Abstract

In many adult epithelia, e.g., epidermis or intestine, adhesion of epithelial cells to basement membrane requires the integrin alpha6 beta4 and laminin-5 (Ln-5). In the absence of one or the other, extensive blistering and exfoliation occur. While alpha6 beta4 was reported to be a receptor for Ln-5, this interaction is poorly understood. We characterize complexes between alpha6 beta4 and Ln-5 in cell-free preparations of extracellular matrix (ECM) from the epithelial cell line, 804G. By microsequencing, Ln-5 and alpha6 beta4 were the major proteins in this ECM and were likely engaged in receptor/ligand complexes because, by immunofluorescence, alpha6 beta4 was colocalized with Ln-5 both in cell monolayers and in cell-free ECM preparations, but they disappeared after preincubation of the monolayers with alpha6 beta4 or Ln-5 function-blocking antibodies. The alpha6 beta4/Ln-5 complexes were resistant to dissociation by extreme pH, urea, chaotropes, eDTA, non-ionic detergents, and b-mercaptoethanol. They were only dissociated by strong anionic detergents, e.g., 1% SDS, suggesting receptor/ligand interactions based on high affinity or avidity. We propose that these alpha6 beta4/Ln-5 complexes may provide links between plasma membrane and basement membrane that resist mechanical stress and support epithelial integrity.

Published

1998

10. Changes in responsiveness of rat spiral ganglion neurons to neurotrophins across age: differential regulation of survival and neuritogenesis

Author

Sara Euteneuer, Kwang Pak, Kenji Kondo, Lina Mullen, Eduardo Chavez, and Allen F. Ryan

Subjects

Aging, Neurite, Cell Survival, Apoptosis, Neurotrophin-3, Receptors, Nerve Growth Factor, Article, Neurotrophin 3, Neurotrophic factors, medicine, otorhinolaryngologic diseases, Neurites, Animals, Receptor, Spiral ganglion, Cells, Cultured, Brain-derived neurotrophic factor, Neurons, biology, Dose-Response Relationship, Drug, General Neuroscience, Brain-Derived Neurotrophic Factor, General Medicine, Cell biology, Rats, medicine.anatomical_structure, nervous system, biology.protein, sense organs, Spiral Ganglion, Neuroscience, Neurotrophin, Explant culture

Abstract

Developmental changes in responsiveness of rat spiral ganglion neurons (SGNs) to neurotrophin-3 (NT-3) and brain-derived neurotrophic factor (BDNF) were examined using an explant culture system. Spiral ganglion (SG) explants at embryonic Day 18 (E18), postnatal Day 0 (P0), P5, P10 and P20 were cultured with the addition of either NT-3 or BDNF at various concentrations (0.1-100 ng/ml) and analyzed the dose-response characteristics of three parameters: SGN survival, the number of neurites emanating from the explants and the length of neurite extension. In E18 cultures, SGN survival and neurite number were enhanced more strongly by NT-3 than by the BDNF. As the explants became more mature, the effects of NT-3 decreased, whereas those of BDNF increased, peaking at P0. Although the intrinsic capacity of SGNs to produce and extend neurites declined considerably by P20, they still retained the capacity to respond to both NT-3 and BDNF. These temporal patterns in responsiveness of SGNs to neurotrophins correspond well to the expression pattern of the two neurotrophins in cochlear sensory epithelium in vivo and also correlate with the time course of developmental events in SGNs such as cell death and the establishment of mature hair cell innervation patterns.

Published

2013

11. Ras/p38 and PI3K/Akt but not Mek/Erk signaling mediate BDNF-induced neurite formation on neonatal cochlear spiral ganglion explants

Author

Kwang K. Pak, Kenji Kondo, Allen F. Ryan, Yves Brand, Lina Mullen, and Eduardo Chavez

Subjects

MAPK/ERK pathway, Neurite, MAP Kinase Signaling System, Neurogenesis, MAP Kinase Kinase 1, Tropomyosin receptor kinase B, Biology, p38 Mitogen-Activated Protein Kinases, Article, Rats, Sprague-Dawley, Phosphatidylinositol 3-Kinases, Organ Culture Techniques, Neurotrophic factors, Neurites, Animals, Extracellular Signal-Regulated MAP Kinases, Molecular Biology, Protein kinase B, PI3K/AKT/mTOR pathway, Brain-derived neurotrophic factor, General Neuroscience, Brain-Derived Neurotrophic Factor, Growth Inhibitors, Cell biology, Rats, nervous system, Animals, Newborn, Trk receptor, ras Proteins, Neurology (clinical), Spiral Ganglion, Proto-Oncogene Proteins c-akt, Developmental Biology

Abstract

Neurotrophins participate in regulating the survival, differentiation, and target innervation of many neurons, mediated by high-affinity Trk and low-affinity p75 receptors. In the cochlea, spiral ganglion (SG) neuron survival is strongly dependent upon neurotrophic input, including brain-derived neurotrophic factor (BDNF), which increases the number of neurite outgrowth in neonatal rat SG in vitro. Less is known about signal transduction pathways linking the activation of neurotrophin receptors to SG neuron nuclei. In particular, the p38 and cJUN Kinase (JNK), mitogen-activated protein kinase (MAPK) pathways, which participate in JNK signaling in other neurons, have not been studied. We found that inhibition of Ras, p38, phosphatidyl inositol 3 kinase (PI3K) or Akt signaling reduced or eliminated BDNF mediated increase in number of neurite outgrowth, while inhibition of Mek/Erk had no influence. Inhibition of Rac/cdc42, which lies upstream of JNK, modestly enhanced BDNF induced formation of neurites. Western blotting implicated p38 and Akt signaling, but not Mek/Erk. The results suggest that the Ras/p38 and PI3K/Akt are the primary pathways by which BDNF promotes its effects. Activation of Rac/cdc42/JNK signaling by BDNF may reduce the formation of neurites. This is in contrast to our previous results on NT-3, in which Mek/Erk signaling was the primary mediator of SG neurite outgrowth in vitro. Our data on BDNF agree with prior results from others that have implicated PI3K/Akt involvement in mediating the effects of BDNF on SG neurons in vitro, including neuronal survival and neurite extension. However, the identification of p38 and JNK involvement is entirely novel. The results suggest that neurotrophins can exert opposing effects on SG neurons, the balance of competing signals influencing the generation of neurites. This competition could provide a potential mechanism for the control of neurite number during development.

Published

2011

12. Normal Development of the Ear in the Human and Mouse

Author

Allen F. Ryan, Yan Li, and Lina Mullen

Subjects

Biology, Cell biology

Published

2003

13. Immunological damage to the inner ear: current and future therapeutic strategies

Author

Allen F, Ryan, Kwang, Pak, Wesley, Low, Alex, Battaglia, Lina, Mullen, Jeffrey P, Harris, and Elizabeth M, Keithley

Subjects

Drug Therapy, Ear, Inner, Hearing Loss, Sensorineural, Anti-Inflammatory Agents, Animals, Steroids, Organ of Corti, Cochlea, Forecasting

Abstract

There is considerable evidence to suggest that hearing and vestibular function can be influenced by immunity in the inner ear. While immunity can protect against infections of the labyrinth, immune response also has the capacity to damage the delicate tissues of the inner ear. Antigenic challenge of the inner ear of sensitized animals leads to rapid accumulation of leukocytes, antibody production, hearing loss and tissue damage. Moreover, a number of systemic autoimmune disorders include hearing loss and vertigo as part of their constellation of symptoms. It also appears that autoimmune damage can exist as an entity confined to the labyrinth. Immune disorders of the inner ear are of special interest since they are among the few forms of hearing loss that are currently amenable to medical treatment. In addition, recent developments in understanding the intracellular pathways that participate in damage to the inner ear provide new opportunities for pharmacotherapy of immune-mediated disorders of hearing and balance.

Published

2002

14. Ras/MEK but not p38 signaling mediates NT-3-induced neurite extension from spiral ganglion neurons

Author

Christoph Aletsee, Stefan Dazert, Andrew Beros, Kwang Pak, Lina Mullen, Allen F. Ryan, and Sean D. Palacios

Subjects

MAPK/ERK pathway, Neurite, Pyridines, p38 mitogen-activated protein kinases, p38 Mitogen-Activated Protein Kinases, Article, Rats, Sprague-Dawley, Methionine, Neurotrophin 3, Culture Techniques, Nitriles, medicine, Butadienes, Neurites, Animals, Dimethyl Sulfoxide, Enzyme Inhibitors, Spiral ganglion, Neurons, biology, Kinase, MEK inhibitor, Imidazoles, Drug Synergism, Molecular biology, Sensory Systems, Cell biology, Rats, medicine.anatomical_structure, Otorhinolaryngology, biology.protein, ras Proteins, Signal transduction, Mitogen-Activated Protein Kinases, Spiral Ganglion, Neurotrophin, Signal Transduction

Abstract

Neurotrophin (NT)-3 is expressed in the neuronal target tissue of the developing rat cochlea and has been shown to promote the survival and neurite outgrowth of spiral ganglion (SG) neurons, suggesting a role for this protein during the innervation of the organ of Corti. In other neurons, NT-3 can mediate neuritogenesis and survival via a number of intracellular signal pathways. To date, the intracellular transduction pathways involved in the mediation of NT-3 effects have not been investigated in SG neurons. To determine whether the activities of NT-3 on SG neurons are dependent on the activation of mitogen-activated protein kinase kinases (MEK)/extracellular-signal-regulated kinases (ERK), Ras, and/or p38, SG explants from postnatal-day 4 rats were cultured with NT-3 and increasing concentrations of the MEK inhibitor U0126, the Ras farnesyl-transferase inhibitor (FTI)-277, and the p38 inhibitor SB203580. After fixation and immunocytochemical labeling, neurite growth was evaluated. A dose-dependent decrease of the effects of NT-3 on length and number of processes was observed in the U0126- and FTI-277-treated SG neurons. In contrast, SB203580 had no significant effect on NT-3-mediated stimulation of neurite growth, in terms of either number or length. The results suggest that NT-3 effects on SG neurons are mediated primarily by the Ras/MEK/ERK signaling pathway.

Published

2002

15. Inflammatory signals increase Fas ligand expression by inner ear cells

Author

Bertrand Gloddek, Dominik Brors, Elizabeth M. Keithley, Lina Mullen, Daniel Bodmer, Kwang Pak, Allen F. Ryan, University of Zurich, and Ryan, A F

Subjects

Fas Ligand Protein, T-Lymphocytes, Immunology, 610 Medicine & health, 10045 Clinic for Otorhinolaryngology, chemical and pharmacologic phenomena, Inflammation, Biology, Fas ligand, Labyrinthitis, Interferon-gamma, Mice, Immune system, Immune privilege, Downregulation and upregulation, Hair Cells, Auditory, otorhinolaryngologic diseases, medicine, Immunology and Allergy, Animals, Inner ear, fas Receptor, Cochlea, Cells, Cultured, 2403 Immunology, Membrane Glycoproteins, medicine.disease, Immunohistochemistry, Cell biology, Up-Regulation, 2728 Neurology (clinical), medicine.anatomical_structure, Neurology, 2808 Neurology, 2723 Immunology and Allergy, Mice, Inbred CBA, sense organs, Neurology (clinical), medicine.symptom, Signal Transduction

Abstract

There is considerable evidence that hearing and vestibular function can be influenced by immune processes. The inner ear has evolved mechanisms, such as the blood-labyrinthine barrier that limit immune responses and autoimmune processes to reduce the potential for damage to cochlear cells. Recently, expression of Fas ligand (FasL) in some non-lymphoid tissue, as in the anterior chamber of the eye, has been hypothesized to play a role in protection of sensitive organs from activated T-cells. We show that under resting conditions, cochlear cells express little or no FasL. However, after exposure to interferon-gamma in vitro, FasL is induced in many neonatal cochlear cells. In addition, we show that FasL is upregulated in adult cochlear cells after induction of a sterile labyrinthitis in vivo. The induction of FasL by inflammation may serve to limit cochlear immune responses, and to protect sensorineural tissue from immune and autoimmune damage.

Published

2002

16. Immunological Damage to the Inner Ear: Current and Future Therapeutic Strategies

Author

Allen F. Ryan, Jeffrey P. Harris, Wesley Low, Alex Battaglia, Kwang Pak, Lina Mullen, and Elizabeth M. Keithley

Subjects

Vestibular system, medicine.medical_specialty, Medical treatment, business.industry, Hearing loss, Audiology, Antibody production, Pharmacotherapy, Immune system, medicine.anatomical_structure, Immunity, Immunology, otorhinolaryngologic diseases, medicine, Inner ear, sense organs, medicine.symptom, business

Abstract

There is considerable evidence to suggest that hearing and vestibular function can be influenced by immunity in the inner ear. While immunity can protect against infections of the labyrinth, immune response also has the capacity to damage the delicate tissues of the inner ear. Antigenic challenge of the inner ear of sensitized animals leads to rapid accumulation of leukocytes, antibody production, hearing loss and tissue damage. Moreover, a number of systemic autoimmune disorders include hearing loss and vertigo as part of their constellation of symptoms. It also appears that autoimmune damage can exist as an entity confined to the labyrinth. Immune disorders of the inner ear are of special interest since they are among the few forms of hearing loss that are currently amenable to medical treatment. In addition, recent developments in understanding the intracellular pathways that participate in damage to the inner ear provide new opportunities for pharmacotherapy of immune-mediated disorders of hearing and balance.

Published

2002

17. Transgenic Mice

Author

Lina Mullen and Allen Ryan

Subjects

0103 physical sciences, 05 social sciences, 0501 psychology and cognitive sciences, 050102 behavioral science & comparative psychology, 010301 acoustics, 01 natural sciences

Published

2001

18. Transgenic Mice: Genome Manipulation and Induced Mutations

Author

Lina Mullen and Allen F. Ryan

Subjects

Genetically modified mouse, Genetics, Biology, Genome

Published

2001