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Vocal Sac of Rana ridibunda: A Morphological and Immunohistochemical Study

Year 2008, Volume: 67 Issue: 2, 135 - 144, 08.11.2010

Abstract

The goal of this study is to investigate the structure of the vocal sac in males of Rana ridibunda and to detect the presence of prolactin receptor immunohistochemically under light microscopy in its components The vocal sac of Rona ridibunda were bilaterally localized on each side of the mouth and contained two different layers, namely an internal and an external sheath. External and internal sheaths were formed with multilayered squamous keratinized epithelium and single layered columnar epithelium with rarely ciliated cells, respectively. The connective tissue under the epithelium in the internal sheath possessed predominantly skeletal muscle fibers. Furthermore, the prolactin receptor immunoreactivity was observed in the uppermost cell layer of the epidermis in the external sheath. This paper is one of the first studies for the purpose of displaying the morphological aspects of the bilaterally located vocal sac and its hormonal interaction. In our opinion, this study also contributes to the field of amphibian reproductive biology.

References

  • Bancroft J.D. and Stevens A. (1982) Theory and practice of histological techniques. Chuchill Livingstone, New York, USA.
  • Brown, S.C. 1988. Electrophysiology of newt skin: Effects of prolactin. General and Comparative Endocrinology. 72: 161-167.
  • Demirsoy A. (1993) Yaşamın Temel Kuralları, Omurgalılar/Anamniyota, Cilt III-Kısım I, 2. Baskı. Ankara, Meteksan A.Ş. 558 pp
  • Demirsoy A. (1996) Türkiye Omugalıları/Amfibiler. Ankara, Meteksan A.Ş. 11-12pp.
  • Dent J. N., Ludeman A. E., Forbes, M. S. (1973) Relations of prolactin and thyroid hormone to molting, skin texture, and cutaneous secretion in the red-spotted newt. Journal of Experimental Zoology. 184:369-382.
  • D’Istria M., Picilli A., Basile C., Delrio G. and Chieffi biochemical variations in the skin of Rana esculenta during the annual cycle. General and Comparative Endocrinology. 48: 20-24. and
  • D’Istria M., Pierantoni P., Citarella F., Fasano S., Vellano C., Peyrot A. and Delrio G. (1984) The effects of thyroidectomy on androgen and prolactin receptors in the dorsal skin and caudal fin of Triturus cristatus carnifex. General and Comprative Endocrinology. 53(1): 153-158.
  • Duellman W.E. and Trueb L. (1986) Biology of Amphibians. New York; McGraw-Hill. 87-92 pp.
  • Edwards C.J., Yamamoto K, Kikuyama S, Kelley D. B. (1999) Prolactin opens the sensitive period for androgen regulation of a larynx-specific myosin heavy chain gene. J. Neurobiology. 41(4): 443- 451.
  • Emerson B.S., Greig A., Carroll L. and Prins G.S. (1999) Androgen receptors in two androgen- mediated, sexually dimorphic characters of frogs. General and Comparative Endocrinology. 114: 173-180.
  • Girgenrath M. and Marsh R.L. (1997) In vivo performance of trunk muscles in tree frogs during calling. The Journal of Experimental Biology. 200: 3101-3108.
  • Goldenberg, S. and Warburg, M.R. 1983. Water balance of five amphibian species at different stages and phases, as affected by hypophysial hormones. Physiology. 75A: 447-455. Biochemistry and
  • Hedges B.S. (1987) Vocalization and habitat preference of the Jamaican treefrog, Hyla marianae (Anura, Hylidae). Caribian Journal of Science. 23(3-4): 380-384.
  • Iwata T., Kawahara G., Yamamoto K., Zhou C.J., Nakajo S., Shioda S. and Kikuyama S. (2000a) Effects of prolactin and androgen on the expression of the female-attracting pheromone silefrin in the abdominal gland of the newt, Cynops ensicauda, Biology of Reproduction. 63: 1867-1872.
  • Iwata T., Toyoda R., Yamamoto K. and Kikuyama S. (2000b) Hormonal control of urodele reproductive Biochemistry and Physiology. 126B: 222-229.
  • Jaramillo C. (1997) Elastic structures in the vocalization apparatus of the Tugara Frog Physalaemus Journal of Morphology. 233: 287-295. (Leptodactylidae).
  • Kao Y.H., Alexander P.S., Yang V.V.C. and Yu J.Y.L. (1994) Annual patterns of nuptial pad and vocal sac development in the male Chinese bullfrog (Rana rugosa Wiegmann). Zoological Studies, 33 (2): 153-159.
  • Kelley D.B. (2004) Vocal communication in frogs. Current Opinion in Neurobiology. 14: 751-757.
  • Kikuyama S., Nakano R., Yasumasu I. (1975) Synergistics action of prolactin and androgen on the cloacal glands of the newt. Comparative Biochemistry Physiology A. 51 (4): 823-826.
  • Kikuyama S., Seshimo H., Shirama K., Kato T. and Noumura T. (1986) Interaction of prolactin with sex steroid in oviduct and tail of newts, Cynops pyrrhogaster. Zoological Science, 3: 131-138.
  • Lofts B., Wellen J.J. and Bernerd T.H. J. (1972) Seasonal changes in endocrine organs of the male common frog, Rana temporaria. III. The Gonads and Cholesterol Cycles. General and Comperative Endocrinology 18: 344-363.
  • Matsumoto A., Toyoda F., Kouki T. and Kikuyama S. (1997) Hormonal alteration of synaptic input to Mauthner cell of the adult Male red-bellied newts. Zoological Science. 14: 651-657.
  • Mosconi G., Cardinali M., Yamamato K., Kikuyama S., Vellano C, Polzonetti-Magni AM. (2002) Temperature-dependent prolactin secretion and reproductive biology of the newt Tiriturus carnifex Endocrinolology 2002: 126: 261-268. and Comperative Induction of cloacal glands of Tiger Salamander Larvae, (Ambystoma tigrinum): Effects of testosterone Comperative Endocrinology. 73: 194-204. General and
  • Singhas C. A., Dent J. N. (1975) Hormonal control of the tail fin and of the nuptial pards in the male red-spotted newt General and Comperative Endocrinology 26: 382-393.
  • Singhas C.A. and Ward D.L.(1993) Prolactin alters the expression of integumental glycoconjugates in the red-spotted newt, Notophthalamus viridescens. The Anatomical Record. 236: 537- 546.
  • Suthers R.A., Narins P.M., Lin W.Y., Schnitzler H.U., Denzinger A., Xu C.H. and Freng A.S. (2006) Voices of the dead: complex nonlinear vocal signals from the larynx of an ultrasonic frog. The Journal of Experimental Biology. 209: 4984-4993.
  • Sengezer-Inceli M., Süren S., Murathanoğlu O. and Kaptan detection of serotonin in the skin of frogs (Rana ridibunda) kept at different temperatures. Bratislava Biologia. 59(2): 273-281.
  • Takada, M. 2005. Prolactin, an activator of epithelial Na+channel, inhibits basolateral K+ channels in adult tree frog skin. Zoological Science. 22: 95- 100.
Year 2008, Volume: 67 Issue: 2, 135 - 144, 08.11.2010

Abstract

References

  • Bancroft J.D. and Stevens A. (1982) Theory and practice of histological techniques. Chuchill Livingstone, New York, USA.
  • Brown, S.C. 1988. Electrophysiology of newt skin: Effects of prolactin. General and Comparative Endocrinology. 72: 161-167.
  • Demirsoy A. (1993) Yaşamın Temel Kuralları, Omurgalılar/Anamniyota, Cilt III-Kısım I, 2. Baskı. Ankara, Meteksan A.Ş. 558 pp
  • Demirsoy A. (1996) Türkiye Omugalıları/Amfibiler. Ankara, Meteksan A.Ş. 11-12pp.
  • Dent J. N., Ludeman A. E., Forbes, M. S. (1973) Relations of prolactin and thyroid hormone to molting, skin texture, and cutaneous secretion in the red-spotted newt. Journal of Experimental Zoology. 184:369-382.
  • D’Istria M., Picilli A., Basile C., Delrio G. and Chieffi biochemical variations in the skin of Rana esculenta during the annual cycle. General and Comparative Endocrinology. 48: 20-24. and
  • D’Istria M., Pierantoni P., Citarella F., Fasano S., Vellano C., Peyrot A. and Delrio G. (1984) The effects of thyroidectomy on androgen and prolactin receptors in the dorsal skin and caudal fin of Triturus cristatus carnifex. General and Comprative Endocrinology. 53(1): 153-158.
  • Duellman W.E. and Trueb L. (1986) Biology of Amphibians. New York; McGraw-Hill. 87-92 pp.
  • Edwards C.J., Yamamoto K, Kikuyama S, Kelley D. B. (1999) Prolactin opens the sensitive period for androgen regulation of a larynx-specific myosin heavy chain gene. J. Neurobiology. 41(4): 443- 451.
  • Emerson B.S., Greig A., Carroll L. and Prins G.S. (1999) Androgen receptors in two androgen- mediated, sexually dimorphic characters of frogs. General and Comparative Endocrinology. 114: 173-180.
  • Girgenrath M. and Marsh R.L. (1997) In vivo performance of trunk muscles in tree frogs during calling. The Journal of Experimental Biology. 200: 3101-3108.
  • Goldenberg, S. and Warburg, M.R. 1983. Water balance of five amphibian species at different stages and phases, as affected by hypophysial hormones. Physiology. 75A: 447-455. Biochemistry and
  • Hedges B.S. (1987) Vocalization and habitat preference of the Jamaican treefrog, Hyla marianae (Anura, Hylidae). Caribian Journal of Science. 23(3-4): 380-384.
  • Iwata T., Kawahara G., Yamamoto K., Zhou C.J., Nakajo S., Shioda S. and Kikuyama S. (2000a) Effects of prolactin and androgen on the expression of the female-attracting pheromone silefrin in the abdominal gland of the newt, Cynops ensicauda, Biology of Reproduction. 63: 1867-1872.
  • Iwata T., Toyoda R., Yamamoto K. and Kikuyama S. (2000b) Hormonal control of urodele reproductive Biochemistry and Physiology. 126B: 222-229.
  • Jaramillo C. (1997) Elastic structures in the vocalization apparatus of the Tugara Frog Physalaemus Journal of Morphology. 233: 287-295. (Leptodactylidae).
  • Kao Y.H., Alexander P.S., Yang V.V.C. and Yu J.Y.L. (1994) Annual patterns of nuptial pad and vocal sac development in the male Chinese bullfrog (Rana rugosa Wiegmann). Zoological Studies, 33 (2): 153-159.
  • Kelley D.B. (2004) Vocal communication in frogs. Current Opinion in Neurobiology. 14: 751-757.
  • Kikuyama S., Nakano R., Yasumasu I. (1975) Synergistics action of prolactin and androgen on the cloacal glands of the newt. Comparative Biochemistry Physiology A. 51 (4): 823-826.
  • Kikuyama S., Seshimo H., Shirama K., Kato T. and Noumura T. (1986) Interaction of prolactin with sex steroid in oviduct and tail of newts, Cynops pyrrhogaster. Zoological Science, 3: 131-138.
  • Lofts B., Wellen J.J. and Bernerd T.H. J. (1972) Seasonal changes in endocrine organs of the male common frog, Rana temporaria. III. The Gonads and Cholesterol Cycles. General and Comperative Endocrinology 18: 344-363.
  • Matsumoto A., Toyoda F., Kouki T. and Kikuyama S. (1997) Hormonal alteration of synaptic input to Mauthner cell of the adult Male red-bellied newts. Zoological Science. 14: 651-657.
  • Mosconi G., Cardinali M., Yamamato K., Kikuyama S., Vellano C, Polzonetti-Magni AM. (2002) Temperature-dependent prolactin secretion and reproductive biology of the newt Tiriturus carnifex Endocrinolology 2002: 126: 261-268. and Comperative Induction of cloacal glands of Tiger Salamander Larvae, (Ambystoma tigrinum): Effects of testosterone Comperative Endocrinology. 73: 194-204. General and
  • Singhas C. A., Dent J. N. (1975) Hormonal control of the tail fin and of the nuptial pards in the male red-spotted newt General and Comperative Endocrinology 26: 382-393.
  • Singhas C.A. and Ward D.L.(1993) Prolactin alters the expression of integumental glycoconjugates in the red-spotted newt, Notophthalamus viridescens. The Anatomical Record. 236: 537- 546.
  • Suthers R.A., Narins P.M., Lin W.Y., Schnitzler H.U., Denzinger A., Xu C.H. and Freng A.S. (2006) Voices of the dead: complex nonlinear vocal signals from the larynx of an ultrasonic frog. The Journal of Experimental Biology. 209: 4984-4993.
  • Sengezer-Inceli M., Süren S., Murathanoğlu O. and Kaptan detection of serotonin in the skin of frogs (Rana ridibunda) kept at different temperatures. Bratislava Biologia. 59(2): 273-281.
  • Takada, M. 2005. Prolactin, an activator of epithelial Na+channel, inhibits basolateral K+ channels in adult tree frog skin. Zoological Science. 22: 95- 100.
There are 28 citations in total.

Details

Primary Language English
Journal Section Makaleler
Authors

Meliha Şengezer İnceli This is me

Serap Sancar-baş This is me

Engin Kaptan This is me

Publication Date November 8, 2010
Submission Date November 8, 2010
Published in Issue Year 2008 Volume: 67 Issue: 2

Cite

AMA Şengezer İnceli M, Sancar-baş S, Kaptan E. Vocal Sac of Rana ridibunda: A Morphological and Immunohistochemical Study. Eur J Biol. November 2010;67(2):135-144.