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Expert Opinion on Biological Therapy Volume 4, 2004 - Issue 11
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Review

Biological therapy for the inner ear

Nirmal P Patel New York University School of Medicine, Laboratory of Molecular Otology, Department of Otolaryngology, New York, NY, USA
,
Anand N Mhatre New York University School of Medicine, Laboratory of Molecular Genetics, Department of Otolaryngology, New York, NY, USA
&
Anil K Lalwani New York University School of Medicine, Department of Otolaryngology, 550 First Avenue, NBV 5E5, New York, NY 10016, USA. [email protected]
Pages 1811-1819 | Published online: 23 Feb 2005

Bibliography

  • RYALS BM, RUBEL EW: Hair cell regeneration after acoustic trauma in adult Coturnix quail. Science (1988) 240(4860):1774–1776.
  • CORWIN JT, COTANCHE DA: Regeneration of sensory hair cells after acoustic trauma. Science (1988) 240(4860):1772–1774.
  • COTANCHE DA: Structural recovery from sound and aminoglycoside damage in the avian cochlea. Audio]. Neurootol (1999) 4(6):271–285.
  • LI H, LIU H, HELLER S: Pluripotent stem cells from the adult mouse inner ear. Nat. Med. (2003) 9(10):1293–1299.
  • ••Thorough demonstration of the presence ofprogenitor cells in the mammalian vestibular epithelium.
  • LALWANI AK, WALSH BJ, REILLY PG, MUZYCZKA N, MHATRE AN: Development of in vivo gene therapy for hearing disorders: introduction of adeno-associated virus into the cochlea of the guinea pig. Gene Ther: (1996) 3(7):588–592.
  • •First validation of gene transfection in the mammalian cochlea in vivo.
  • STAECKER H, LI D, O'MALLEY BW JR, VAN DE WATER TR: Gene expression in the mammalian cochlea: a study of multiple vector systems. Acta Otolaryngol (2001) 121(2):157–163.
  • AMALFITANO A, PARKS RJ: Separating fact from fiction: assessing the potential of modified adenovirus vectors for use in human gene therapy. Curc Gene The]: (2002) 2(2):111–133.
  • HAN JJ, MHATRE AN, WAREING M et al: Transgene expression in the guinea pigcochlea mediated by a lentivirus-derived gene transfer vector. Hum. Gene Ther: (1999) 10(11):1867–1873.
  • WAREING M, MHATRE AN, PETTIS Ret al.: Cationic liposome mediated transgene expression in the guinea pig cochlea. Hear. Res. (1999) 128(1–2):61–69.
  • AVRAHAM KB: Mouse models for deafness: lessons for the human inner ear and hearing loss. Ear Hear. (2003) 24(4):332–341.
  • ANAGNOSTOPOULOS AV: A compendium of mouse knockouts with inner ear defects. Trends Genet. (2002) 18(10)499.
  • YAMASOBA T, YAGI M, ROESSLER BJ, MILLER JM, RAPHAEL Y: Inner ear transgene expression after adenoviral vector inoculation in the endolymphatic sac. Hum. Gene Ther. (1999) 10(5):769–774.
  • ISHIMOTO S, KAWAMOTO K, KANZAKI S, RAPHAEL Y: Gene transfer into supporting cells of the organ of Corti. Hear. Res. (2002) 173(1-2):187–197.
  • CARVALHO GJ, LALWANI AK: The effect of cochleostomy and intracochlear infusion on auditory brain stem response threshold in the guinea pig. Am. J. Ota. (1999) 20(1):87–90.
  • ISHIMOTO S, KAWAMOTO K, STOVER T, KANZAKI S, YAMASOBA T, RAPHAEL Y: A glucocorticoid reduces adverse effects of adenovirus vectors in the cochlea. Audio]. Neurootol (2003) 8(2):70–79.
  • KAWAMOTO K, KANZAKI S, YAGI M et al.: Gene-based therapy for inner ear disease. Noise Health (2001) 3(11):37–47.
  • JERO J, MHATRE AN, TSENG CJ et al.: Cochlear gene delivery through an intact round window membrane in mouse. Hum. Gene Ther. (2001) 12(5):539–548.
  • STAECKER H, GABAIZADEH R, FEDEROFF H, VAN DE WATER TR: Brain-derived neurotrophic factor gene therapy prevents spiral ganglion degeneration after hair cell loss. Otolaryngol Head Neck Surg. (1998) 119(1):7–13.
  • LALWANI AK, HAN JJ, CASTELEIN CM,CARVALHO GJ, MHATRE AN: In vitro and in vivo assessment of the ability of adeno-associated virus-brain-derived neurotrophic factor to enhance spiral ganglion cell survival following ototoxic insult. Laryngoscope (2002) 112(8 Pt 1):1325–1334.
  • CHEN X, FRISINA RD, BOWERS WJ, FRISINA DR, FEDEROFF HJ: HSV amplicon-mediated neurotrophin-3 expression protects murine spiral ganglion neurons from cisplatin-induced damage. Mol Ther. (2001) 3(6):958–963.
  • BOWERS WJ, CHEN X, GUO H, FRISINA DR, FEDEROFF HJ,FRISINA RD: Neurotrophin-3 transduction attenuates cisplatin spiral ganglion neuron ototoxicity in the cochlea. Mol Ther. (2002) 6(1):12–18.
  • YAGI M, MAGAL E, SHENG Z, ANG KA, RAPHAEL Y: Hair cell protection from aminoglycoside ototoxicity by adenovirus-mediated overexpression of glial cell line-derived neurotrophic factor. Hum. Gene Ther. (1999) 10(5):813–823.
  • •Illustrates the therapeutic potential of gene therapy in the inner ear.
  • SUZUKI M, YAGI M, BROWN JN, MILLER AL, MILLER JM, RAPHAEL Y: Effect of transgenic GDNF expression on gentamicin-induced cochlear and vestibular toxicity. Gene Ther. (2000) 7(12):1046–1054.
  • HAKUBA N, WATABE K, HYODO J et al.: Adenovirus-mediated overexpression of a gene prevents hearing loss and 1818progressive inner hair cell loss after transientcochlear ischemia in gerbils. Gene flier. (2003) 10(5):426–433.
  • YAGI M, KANZAKI S, KAWAMOTO K et al.: Spiral ganglion neurons are protected from degeneration by GDNF gene therapy. Assoc. Res. Otolaryngol (2000) 1(4):315–325.
  • TAKUMIDA M, POPA R, ANNIKO M: Free radicals in the guinea pig inner ear following gentamicin exposure. ORL Otorhinolaryngol Relat. Spec. (1999) 61(2)63–70.
  • SHA SH, ZAJIC G, EPSTEIN CJ, SCHACHT J: Overexpression of copper/ zinc-superoxide dismutase protects from kanamycin-induced hearing loss. Audio] Neurootol (2001) 6(3):117–123.
  • MCFADDEN SL, DING D,SALVEMINI D, SALVI RJ: M40403, a superoxide dismutase mimetic, protects cochlear hair cells from gentamicin, but not cisplatin toxicity. Toxicol Appl. Pharmacol (2003) 186(1):46–54.
  • KAWAMOTO K, SHA SH, MINODA R et al: Antioxidant gene therapy can protect hearing and hair cells from ototoxicity. Mol Ther. (2004) 9(2):173–181.
  • ZHENG JL, GAO WQ: Overexpression ofMathl induces robust production of extra hair cells in postnatal rat inner ears. Nat. Neurosci (2000) 3(6):580–586.
  • MONDAIN M, RESTITUITO S, VINCENTI V et al: Adenovirus-mediated in vivo gene transfer in guinea pig middle ear mucosa. Hum. Gene Ther: (1998) 9(8):1217–1221.
  • BERMINGHAM NA, HASSAN BA, PRICE SD et al: Matta: an essential gene for the generation of inner ear hair cells. Science (1999) 284(5421):1837–1841.
  • KAWAMOTO K, ISHIMOTO S, MINODA R, BROUGH DE, RAPHAEL Y: Mathl gene transfer generates new cochlear hair cells in mature guinea pigs in vivo. J. Neurosci. (2003) 23(11):4395–4400.
  • •Shows the plausibility of using gene therapy to potentially enhance or generate hair cells.
  • SHOU J, ZHENG JL, GAO WQ: Robustgeneration of new hair cells in the mature mammalian inner ear by adenoviral expression of Hada. Mol Cell. Neurosci. (2003) 23(2):169–179.
  • STOVER T, YAGI M, RAPHAEL Y: Transduction of the contralateral ear after adenovirus-mediated cochlear gene transfer. Gene Ther: (2000) 7(5):377–383.
  • KHO ST, PETTIS PM, MHATRE AN, LALWANI AK: Safety of adeno-associated virus as cochlear gene transfer vector: analysis of distant spread beyond injected cochleae. Ma The]: (2000) 2(4):368–373.
  • BARKATS M, BILANG-BLEUEL A, BUC-CARON MH et al.: Adenovirus in the brain: recent advances of gene therapy for neurodegenerative diseases. Frog. Neurobiol (1998) 55(4):333–341.
  • BJORKLUND LM,SANCHEZ-PERNAUTE R, CHUNG S et al: Embryonic stem cells develop into functional dopaminergic neurons after transplantation in a Parkinson rat model. Proc. Natl. Acad. Sci. USA (2002) 99(4):2344–2349.
  • WICHTERLE H, LIEBERAM I, PORTER JA, JESSELL TM: Directed differentiation of embryonic stem cells into motor neurons. Cell (2002) 110(3):385–397.
  • JIANG Y, JAHAGIRDAR BN, REINHARDT RL et al: Pluripotency of mesenchymal stem cells derived from adult marrow. Nature (2002) 418(6893):41–49.
  • LI H, ROBLIN G, LIU H, HELLER S: Generation of hair cells by stepwise differentiation of embryonic stem cells. Proc. Natl. Acad. Sci. USA (2003) 100(23):13495–13500.
  • NADOL JB JR, YOUNG YS, GLYNN RJ: Survival of spiral ganglion cells in profound sensorineural hearing loss: implications for cochlear implantation. Ann. Otol Rhino] Laryngol (1989) 98(6):411–416.
  • NADOL JB JR, XU WZ: Diameter of the cochlear nerve in deaf humans: implications for cochlear implantation. Ann. Otol Rhino] Laryngol (1992) 101(12):988–993.
  • OLIVIUS P, ALEXANDROV L, MILLER JM, ULFENDAHL M, BAGGER-SJOBACK D, KOZLOVA EN: A model for implanting neuronal tissue into the cochlea. Brain Res. Brain Res. Protoc. (2004) 12(3):152–156.
  • HU Z, ULFENDAHL M, OLIVIUS NP: Survival of neuronal tissue following xenograft implantation into the adult rat inner ear. Exp. Nemo] (2004) 185(1):7–14.
  • KOJIMA K, TAMURA S, NISHIDA AT, ITO J: Generation of inner ear hair cell immunophenotypes from neurospheres obtained from fetal rat central nervous system in vitro. Acta Otolaryngol Sapp] (2004) 551:26–30.
  • TATEYA I, NAKAGAWA T, IGUCHI F et al.: Fate of neural stem cells grafted into injured inner ears of mice. Neuroreport (2003) 14(13):1677–1681.
  • TAMURA T, NAKAGAWA T, IGUCHI F et al.: Transplantation of neural stem cells into the modiolus of mouse cochleae injured by cisplatin. Acta Otolaryngol Sapp] (2004) 551:65–68.
  • JIN HK, CARTER JE, HUNTLEY GW, SCHUCHMAN EH: Intracerebral transplantation of mesenchymal stem cells into acid sphingomyelinase-deficient mice delays the onset of neurologicalabnormalities and extends their life span. Clin. Invest. (2002) 109(9):1183–1191.
  • NAITO Y, NAKAMURA T,NAKAGAWA T et al.: Transplantation of bone marrow stromal cells into the cochlea of chinchillas. Neuroreport (2004) 15(1):1–4.
  • GAGE FH: Mammalian neural stem cells.Science (2000) 287(5457):1433–1438.
  • IGUCHI F, NAKAGAWA T, TATEYA I et al.: Trophic support of mouse inner ear by neural stem cell transplantation. Neuroreport (2003) 14(1):77–80.
  • LALWANI AK, JERO J, MHATRE AN: Developments in cochlear gene therapy. Adv. Otorhinolaryngol (2002) 61:28–33.

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