The vomeronasal organ is required for the expression of lordosis behaviour, but not sex discrimination in female mice

The role of the vomeronasal organ (VNO) in mediating neuroendocrine responses in female mice is well known; however, whether the VNO is equally important for sex discrimination is more controversial as evidence exists for a role of the main olfactory system in mate recognition. Therefore, we studied...

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Published inThe European journal of neuroscience Vol. 23; no. 2; pp. 521 - 530
Main Authors Keller, Matthieu, Pierman, Sylvie, Douhard, Quentin, Baum, Michael J., Bakker, Julie
Format Journal Article Web Resource
LanguageEnglish
Published Oxford, UK Blackwell Publishing Ltd 01.01.2006
Blackwell Publishing
Subjects
accessory olfactory system
Analysis of Variance
Animals
Behavior, Animal
Discrimination, Psychological - physiology
Electrophoresis, Polyacrylamide Gel - methods
Female
Gene Expression - physiology
Gonadotropin-Releasing Hormone - pharmacology
Human health sciences
Immunohistochemistry - methods
Male
mate recognition
Maze Learning - physiology
Mice
Mice, Inbred C57BL
Molecular Weight
Neurologie
Neurology
Neurosciences & behavior
Neurosciences & comportement
Odorants
olfaction
Olfactory Pathways - metabolism
Posture
Proto-Oncogene Proteins c-fos - metabolism
Sciences de la santé humaine
Sciences sociales & comportementales, psychologie
Sexual Behavior, Animal - drug effects
Sexual Behavior, Animal - physiology
sexual behaviour
Smell - physiology
Social & behavioral sciences, psychology
Urine - chemistry
Vomeronasal Organ - physiology
Online AccessGet full text
ISSN0953-816X
1460-9568
1460-9568
DOI10.1111/j.1460-9568.2005.04589.x

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Abstract The role of the vomeronasal organ (VNO) in mediating neuroendocrine responses in female mice is well known; however, whether the VNO is equally important for sex discrimination is more controversial as evidence exists for a role of the main olfactory system in mate recognition. Therefore, we studied the effect of VNO removal (VNOx) on the ability of female mice to discriminate between volatile and non‐volatile odours of conspecifics of the two sexes and in different endocrine states using Y‐maze tests. VNOx female mice were able to reliably distinguish between male and female or male and gonadectomized (gdx) male volatile odours. However, when subjects had to discriminate between male and female or gdx male non‐volatile odours, VNOx females were no longer able to discriminate between sex or different endocrine status. These results thus show that the VNO is primarily involved in the detection and processing of non‐volatile odours, and that female mice can use volatile odours detected and processed by the main olfactory system for mate recognition. However, VNO inputs are needed to promote contact with the male, including facilitation of lordosis responses to his mounts. A single subcutaneous injection with gonadotropin‐releasing hormone (GnRH) partially reversed the deficit in lordosis behaviour observed in VNOx females suggesting that VNO inputs may reach hypothalamic GnRH neurons to influence the display of sexual behaviour.
AbstractList The role of the vomeronasal organ (VNO) in mediating neuroendocrine responses in female mice is well known; however, whether the VNO is equally important for sex discrimination is more controversial as evidence exists for a role of the main olfactory system in mate recognition. Therefore, we studied the effect of VNO removal (VNOx) on the ability of female mice to discriminate between volatile and non-volatile odours of conspecifics of the two sexes and in different endocrine states using Y-maze tests. VNOx female mice were able to reliably distinguish between male and female or male and gonadectomized (gdx) male volatile odours. However, when subjects had to discriminate between male and female or gdx male non-volatile odours, VNOx females were no longer able to discriminate between sex or different endocrine status. These results thus show that the VNO is primarily involved in the detection and processing of non-volatile odours, and that female mice can use volatile odours detected and processed by the main olfactory system for mate recognition. However, VNO inputs are needed to promote contact with the male, including facilitation of lordosis responses to his mounts. A single subcutaneous injection with gonadotropin-releasing hormone (GnRH) partially reversed the deficit in lordosis behaviour observed in VNOx females suggesting that VNO inputs may reach hypothalamic GnRH neurons to influence the display of sexual behaviour.
The role of the vomeronasal organ (VNO) in mediating neuroendocrine responses in female mice is well known; however, whether the VNO is equally important for sex discrimination is more controversial as evidence exists for a role of the main olfactory system in mate recognition. Therefore, we studied the effect of VNO removal (VNOx) on the ability of female mice to discriminate between volatile and non-volatile odours of conspecifics of the two sexes and in different endocrine states using Y-maze tests. VNOx female mice were able to reliably distinguish between male and female or male and gonadectomized (gdx) male volatile odours. However, when subjects had to discriminate between male and female or gdx male non-volatile odours, VNOx females were no longer able to discriminate between sex or different endocrine status. These results thus show that the VNO is primarily involved in the detection and processing of non-volatile odours, and that female mice can use volatile odours detected and processed by the main olfactory system for mate recognition. However, VNO inputs are needed to promote contact with the male, including facilitation of lordosis responses to his mounts. A single subcutaneous injection with gonadotropin-releasing hormone (GnRH) partially reversed the deficit in lordosis behaviour observed in VNOx females suggesting that VNO inputs may reach hypothalamic GnRH neurons to influence the display of sexual behaviour.The role of the vomeronasal organ (VNO) in mediating neuroendocrine responses in female mice is well known; however, whether the VNO is equally important for sex discrimination is more controversial as evidence exists for a role of the main olfactory system in mate recognition. Therefore, we studied the effect of VNO removal (VNOx) on the ability of female mice to discriminate between volatile and non-volatile odours of conspecifics of the two sexes and in different endocrine states using Y-maze tests. VNOx female mice were able to reliably distinguish between male and female or male and gonadectomized (gdx) male volatile odours. However, when subjects had to discriminate between male and female or gdx male non-volatile odours, VNOx females were no longer able to discriminate between sex or different endocrine status. These results thus show that the VNO is primarily involved in the detection and processing of non-volatile odours, and that female mice can use volatile odours detected and processed by the main olfactory system for mate recognition. However, VNO inputs are needed to promote contact with the male, including facilitation of lordosis responses to his mounts. A single subcutaneous injection with gonadotropin-releasing hormone (GnRH) partially reversed the deficit in lordosis behaviour observed in VNOx females suggesting that VNO inputs may reach hypothalamic GnRH neurons to influence the display of sexual behaviour.
Author Baum, Michael J.
Bakker, Julie
Keller, Matthieu
Pierman, Sylvie
Douhard, Quentin
AuthorAffiliation 1 Centre for Cellular and Molecular Neurobiology, Research Group in Behavioural Neuroendocrinology, University of Liège, Belgium
2 Department of Biology, Boston University, USA
AuthorAffiliation_xml – name: 1 Centre for Cellular and Molecular Neurobiology, Research Group in Behavioural Neuroendocrinology, University of Liège, Belgium
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References Yamazaki, K., Beauchamp, G.K., Curran, M., Bard, J. & Boyse, E.A. (2000) Parent-progeny recognition as a function of MHC odortype identity. Proc. Natl. Acad. Sci. USA, 97, 10500-10502.
Winans, S.S. & Powers, J.B. (1977) Olfactory and vomeronasal deafferentation of male hamsters: histological and behavioral analyses. Brain Res., 126, 325-344.
Lepri, J.J. & Wysocki, C.J. (1987) Removal of the vomeronasal organ disrupts the activation of reproduction in female voles. Physiol. Behav., 40, 349-355.
Curtis, J.T., Liu, Y. & Wang, Z. (2001) Lesions of the vomeronasal organ disrupt mating-induced pair bonding in female prairie voles (Microtus ochrogaster). Brain Res., 18, 167-174.
Powers, J.B., Fields, R.B. & Winans, S.S. (1979) Olfactory and vomeronasal system participation in male hamsters' attraction to female vaginal secretions. Physiol. Behav., 22, 77-84.
Wysocki, C.J., Wellington, J.L. & Beauchamp, G.K. (1980) Access of urinary nonvolatiles to the mammalian vomeronasal organ. Science, 207, 781-783.
Brown, R.E., Singh, P.B. & Roser, B. (1987) The major histocompatibility complex and the chemosensory recognition of individuality in rats. Physiol. Behav., 40, 65-73.
Bruce, H.M. (1959) An exteroceptive block to pregnancy in the mouse. Nature, 184, 105.
Trinh, K. & Storm, D.R. (2003) Vomeronasal organ detects odorants in absence of signaling through main olfactory epithelium. Nat. Neurosci., 6, 519-525.
Meredith, M. (1986) Vomeronasal organ removal before sexual experience impairs male hamster mating behavior. Physiol. Behav., 36, 737-743.
Robertson, D.H.L., Cox, K.A., Gaskell, S.J., Evershed, R.P. & Beynon, R.J. (1996) Molecular heterogeneity in the major urinary proteins of the house mouse Mus musculus. J. Biochem., 316, 265-272.
Schaefer, M.L., Yamazaki, K., Osada, K., Restrepo, D. & Beauchamp, G.K. (2002) Olfactory fingerprints for major histocompatibility complex-determined body odors II: relationship among odor maps, genetics, odor composition, and behavior. J. Neurosci., 22, 9513-9521.
Whitten, W.K. (1959) Occurrence of anoestrus in mice cage in groups. J. Endocrinol., 18, 102-107.
Lloyd-Thomas, A. & Keverne, E.B. (1982) Role of the brain and accessory olfactory system in the block to pregnancy in mice. Neuroscience, 7, 907-913.
Mackay-Sim, A. & Rose, J.D. (1986) Removal of vomeronasal organ impairs lordosis in female hamsters: effect is reversed by luteinising hormone-releasing hormone. Neuroendocrinology, 42, 489-493.
Peele, P., Salazar, I., Mimmack, M., Keverne, E.B. & Brennan, P.A. (2003) Low molecular weight constituents of male mouse urine mediate the pregnancy block effect and convey information about the identity of the mating male. Eur. J. Neurosci., 18, 622-628.
Saito, T.R. & Moltz, H. (1986) Sexual behavior in the female rat following removal of the vomeronasal organ. Physiol. Behav., 38, 81-87.
Beauchamp, G.K., Yamazaki, K., Wysocki, C.J., Slotnick, B., Thomas, L. & Boyse, E.A. (1985) Chemosensory recognition of mouse major histocompatibility types by another species. Proc. Natl. Acad. Sci. USA, 82, 4186-4188.
Meredith, M. (1998) Vomeronasal, olfactory, hormonal convergence in the brain. Cooperation or coincidence? Ann. N.Y. Acad. Sci., 30, 349-361.
Key, B. & Giorgi, P.P. (1986) Soybean agglutinin binding to the olfactory systems of the rat and mouse. Neurosci. Lett., 29, 131-136.
Schaefer, M.L., Young, D.A. & Restrepo, D. (2001) Olfactory fingerprints for major histocompatibility complex-determined body odors. J. Neurosci., 21, 2481-2487.
Yamazaki, K., Beauchamp, G.K., Imai, Y., Bard, J. & Boyse, E.A. (1992) Expression of urinary H-2 odortypes by infant mice. Proc. Natl. Acad. Sci. USA, 89, 2756-2758.
Labov, J.B. & Wysocki, C.J. (1989) Vomeronasal organ and social factors affect urine marking by male mice. Physiol. Behav., 45, 447-453.
Moss, R.L. & McCann, S.M. (1973) Induction of mating behavior in rats by luteinizing hormone-releasing factor. Science, 13, 177-179.
Rubin, B.S. & Barfield, R.J. (1983) Induction of estrous behavior in ovariectomized rats by sequential replacement of estrogen and progesterone to the ventromedial hypothalamus. Neuroendocrinology, 37, 218-224.
Brown, R.E. (1979) Mammalian social odors. Adv. Stud. Behav., 10, 107-161.
Leypold, B.G., Yu, C.R., Leinders-Zufall, T., Kim, M.M., Zufall, F. & Axel, R. (2002) Altered sexual and social behavior in trp2 mutant mice. Proc. Natl. Acad. Sci. USA, 99, 6376-6381.
Hurst, J.L., Payne, C.E., Nevison, C.M., Marie, A.D., Humphries, R.E., Robertson, D.H.L., Cavaggioni, A. & Beynon, J.B. (2001) Individual recognition in mice mediated by major urinary proteins. Nature, 414, 631-634.
Lombardi, J.R. & Vandenbergh, J.C. (1977) Pheromonally induced sexual maturation in females: regulation by the social environment of the male. Science, 196, 545-546.
Stowers, L., Holy, T.E., Meister, M., Dulac, C. & Koentges, G. (2002) Loss of sex discrimination and male-male aggression in mice deficient for TRP2. Science, 295, 1493-1500.
Boehm, U., Zou, Z. & Buck, L.B. (2005) Feedback loops link odor and pheromone signaling with reproduction. Cell, 123, 683-695.
Brennan, P.A. & Peele, P. (2003) Towards an understanding of the pregnancy-blocking urinary chemosignals of mice. Biochem. Soc. Trans., 31, 152-155.
Yamaguchi, M., Yamazaki, K., Beauchamp, G.K., Bard, J., Thomas, L. & Boyse, E.A. (1981) Distinctive urinary odors governed by the major histocompatibility locus of the mouse. Proc. Natl. Acad. Sci. USA, 78, 5817-5820.
Leinders-Zufall, T., Brennan, P., Widmayer, P.S.P.C., Maul-Pavicic, A., Jager, M., Li, X.H., Breer, H., Zufall, F. & Boehm, T. (2004) MHC class I peptides as chemosensory signals in the vomeronasal organ. Science, 306, 1033-1037.
Brennan, P.A., Schellinck, H.M. & Keverne, E.B. (1999) Patterns of expression of the immediate-early gene egr-1 in the accessory olfactory bulb of female mice exposed to pheromonal constituents of male urine. Neuroscience, 90, 1463-1470.
Dudley, C.A. & Moss, R.L. (1988) Facilitation of lordosis in female rats by CNS-site specific infusions of an LH-RH fragment, Ac-LH-RH-(5-10). Brain Res., 16, 161-167.
Bakker, J., Honda, S., Harada, N. & Balthazart, J. (2002) The aromatase knock-out mouse provides new evidence that estradiol is required during development in the female for the expression of sociosexual behaviours in adulthood. J. Neurosci., 22, 9104-9112.
O'Connell, R.J. & Meredith, M. (1984) Effects of volatile and nonvolatile chemical signals on male sex behaviors mediated by the main and accessory olfactory systems. Behav. Neurosci., 98, 1083-1093.
Dudley, C.A., Rajendren, G. & Moss, R.L. (1996) Signal processing in the vomeronasal system: modulation of sexual behavior in the female rat. Crit. Rev. Neurobiol., 10, 265-290.
Pfaff, D.W. (1973) Luteinizing hormone-releasing factor potentiates lordosis behavior in hypophysectomized ovarictomized female rats. Science, 182, 1148-1149.
Wysocki, C.J., Nyby, J., Whitney, G., Beauchamp, G.K. & Katz, Y. (1982) The vomeronasal organ: primary role in mouse chemosensory gender recognition. Physiol. Behav., 29, 315-327.
Leinders-Zufall, T., Lane, A.P., Puche, A.C., Ma, W., Novotny, M.V., Shipley, M.T. & Zufall, F. (2000) Ultrasensitive pheromone detection by mammalian vomeronasal neurons. Nature, 405, 792-796.
Hurst, J.L., Robertson, D.H.L., Tolladay, U. & Beynon, R.J. (1998) Proteins in urine scent marks of male house mice extend the longevity of olfactory signals. Anim. Behav., 55, 1289-1297.
Beynon, R.J. & Hurst, J.L. (2004) Urinary proteins and the modulation of chemical scents in mice and rats. Peptides, 25, 1553-1563.
Pfeiffer, C.A. & Johnston, R.E. (1994) Hormonal and behavioral responses of male hamsters to females and female odors: roles of olfaction, the vomeronasal system, and sexual experience. Physiol. Behav., 55, 129-138.
Luo, M., Fee, M.S. & Katz, L.C. (2003) Encoding pheromonal signal in the accessory olfactory bulb of behaving mice. Science, 299, 1196-1201.
Boschat, C., Pelofi, C., Randin, O., Roppolo, D., Luscher, C., Broilet, M.C. & Rodriguez, I. (2002) Pheromone detection mediated by a V1r vomeronasal receptor. Nat. Neurosci., 5, 1261-1262.
Sam, M., Vora, S., Salnic, B., Ma, W., Novotny, M.V. & Buck, L.B. (2001) Neuropharmacology. Odorants may arouse instinctive behaviors. Nature, 412, 142.
Halem, H.A., Cherry, J.A. & Baum, M.J. (2001) Central forebrain Fos responses to familiar male odours are attenuated in recently mated female mice. Eur. J. Neurosci., 13, 389-399.
Halpern, M. & Martinez-Marcos, A. (2003) Structure and function of the vomeronasal system: an update. Prog. Neurobiol., 70, 245-318.
Del Punta, K., Leinders-Zufall, T., Rodriguez, I., Jukam, D., Wysocki, C.J., Ogawa, S., Zufall, F. & Mombaerts, P. (2002) Deficient pheromone responses in mice lacking a cluster of vomeronasal receptor genes. Nature, 419, 70-74.
Foreman, M.M. & Moss, R.L. (1977) Effects of subcutaneous injection and intrahypothalamic infusion of releasing hormones upon lordotic response to repetitive coital stimulation. Horm. Behav., 8, 219-234.
Petrulis, A., Peng, M. & Johnston, R.E. (1999) Effects of vomeronasal organ removal on individual odor discrimination, sex-odor preference, and scent marking by female hamsters. Physiol. Behav., 66, 73-83.
Wysocki, C.J., Yamazaki, K., Curran, G.H., Wysocki, L.M. & Beauchamp, G.K. (2004) Mice (Mus musculus) lacking a vomeronasal organ can discriminate MHC-determined odortypes. Hom. Behav., 46, 241-246.
Lin, W., Arellano, J., Slotnick, B. & Restrepo, D. (2004) Odors detected by mice deficient in cyclic nucleotide-gated channel subunit A2 stimulate the main olfactory system. J. Neurosci., 24, 3703-3710.
Armstrong, S.D., Robertson, D.H.L., Cheetham, S.A., Hurst, J.L. & Beynon, R.J. (2005) Structural and functional differences in isoforms of major urinary proteins: a male specific protein that preferentially binds a male pheromone. Biochem. J., 391, 343-350.
Singh, P.B. (2001) Chemosensation and genetic individuality. Reproduction, 121, 529-539.
Pankevich, D.E., Baum, M.J. & Cherry, J.A. (2004) Olfactor
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References_xml – reference: Mackay-Sim, A. & Rose, J.D. (1986) Removal of vomeronasal organ impairs lordosis in female hamsters: effect is reversed by luteinising hormone-releasing hormone. Neuroendocrinology, 42, 489-493.
– reference: Brown, R.E., Singh, P.B. & Roser, B. (1987) The major histocompatibility complex and the chemosensory recognition of individuality in rats. Physiol. Behav., 40, 65-73.
– reference: Labov, J.B. & Wysocki, C.J. (1989) Vomeronasal organ and social factors affect urine marking by male mice. Physiol. Behav., 45, 447-453.
– reference: Robertson, D.H.L., Cox, K.A., Gaskell, S.J., Evershed, R.P. & Beynon, R.J. (1996) Molecular heterogeneity in the major urinary proteins of the house mouse Mus musculus. J. Biochem., 316, 265-272.
– reference: Bakker, J., Honda, S., Harada, N. & Balthazart, J. (2002) The aromatase knock-out mouse provides new evidence that estradiol is required during development in the female for the expression of sociosexual behaviours in adulthood. J. Neurosci., 22, 9104-9112.
– reference: Wysocki, C.J., Yamazaki, K., Curran, G.H., Wysocki, L.M. & Beauchamp, G.K. (2004) Mice (Mus musculus) lacking a vomeronasal organ can discriminate MHC-determined odortypes. Hom. Behav., 46, 241-246.
– reference: Singh, P.B. (2001) Chemosensation and genetic individuality. Reproduction, 121, 529-539.
– reference: Bruce, H.M. (1959) An exteroceptive block to pregnancy in the mouse. Nature, 184, 105.
– reference: Petrulis, A., Peng, M. & Johnston, R.E. (1999) Effects of vomeronasal organ removal on individual odor discrimination, sex-odor preference, and scent marking by female hamsters. Physiol. Behav., 66, 73-83.
– reference: O'Connell, R.J. & Meredith, M. (1984) Effects of volatile and nonvolatile chemical signals on male sex behaviors mediated by the main and accessory olfactory systems. Behav. Neurosci., 98, 1083-1093.
– reference: Pfeiffer, C.A. & Johnston, R.E. (1994) Hormonal and behavioral responses of male hamsters to females and female odors: roles of olfaction, the vomeronasal system, and sexual experience. Physiol. Behav., 55, 129-138.
– reference: Wysocki, C.J., Nyby, J., Whitney, G., Beauchamp, G.K. & Katz, Y. (1982) The vomeronasal organ: primary role in mouse chemosensory gender recognition. Physiol. Behav., 29, 315-327.
– reference: Trinh, K. & Storm, D.R. (2003) Vomeronasal organ detects odorants in absence of signaling through main olfactory epithelium. Nat. Neurosci., 6, 519-525.
– reference: Powers, J.B., Fields, R.B. & Winans, S.S. (1979) Olfactory and vomeronasal system participation in male hamsters' attraction to female vaginal secretions. Physiol. Behav., 22, 77-84.
– reference: Lombardi, J.R. & Vandenbergh, J.C. (1977) Pheromonally induced sexual maturation in females: regulation by the social environment of the male. Science, 196, 545-546.
– reference: Key, B. & Giorgi, P.P. (1986) Soybean agglutinin binding to the olfactory systems of the rat and mouse. Neurosci. Lett., 29, 131-136.
– reference: Foreman, M.M. & Moss, R.L. (1977) Effects of subcutaneous injection and intrahypothalamic infusion of releasing hormones upon lordotic response to repetitive coital stimulation. Horm. Behav., 8, 219-234.
– reference: Brennan, P.A., Schellinck, H.M. & Keverne, E.B. (1999) Patterns of expression of the immediate-early gene egr-1 in the accessory olfactory bulb of female mice exposed to pheromonal constituents of male urine. Neuroscience, 90, 1463-1470.
– reference: Brennan, P.A. & Peele, P. (2003) Towards an understanding of the pregnancy-blocking urinary chemosignals of mice. Biochem. Soc. Trans., 31, 152-155.
– reference: Pankevich, D.E., Baum, M.J. & Cherry, J.A. (2004) Olfactory sex discrimination persists, whereas the preference for urinary odorants from estrous females disappears in male mice after vomeronasal organ removal. J. Neurosci., 24, 9451-9457.
– reference: Meredith, M. (1998) Vomeronasal, olfactory, hormonal convergence in the brain. Cooperation or coincidence? Ann. N.Y. Acad. Sci., 30, 349-361.
– reference: Moss, R.L. & McCann, S.M. (1973) Induction of mating behavior in rats by luteinizing hormone-releasing factor. Science, 13, 177-179.
– reference: Halpern, M. & Martinez-Marcos, A. (2003) Structure and function of the vomeronasal system: an update. Prog. Neurobiol., 70, 245-318.
– reference: Dudley, C.A. & Moss, R.L. (1988) Facilitation of lordosis in female rats by CNS-site specific infusions of an LH-RH fragment, Ac-LH-RH-(5-10). Brain Res., 16, 161-167.
– reference: Saito, T.R. & Moltz, H. (1986) Sexual behavior in the female rat following removal of the vomeronasal organ. Physiol. Behav., 38, 81-87.
– reference: Sam, M., Vora, S., Salnic, B., Ma, W., Novotny, M.V. & Buck, L.B. (2001) Neuropharmacology. Odorants may arouse instinctive behaviors. Nature, 412, 142.
– reference: Whitten, W.K. (1959) Occurrence of anoestrus in mice cage in groups. J. Endocrinol., 18, 102-107.
– reference: Brown, R.E. (1979) Mammalian social odors. Adv. Stud. Behav., 10, 107-161.
– reference: Del Punta, K., Leinders-Zufall, T., Rodriguez, I., Jukam, D., Wysocki, C.J., Ogawa, S., Zufall, F. & Mombaerts, P. (2002) Deficient pheromone responses in mice lacking a cluster of vomeronasal receptor genes. Nature, 419, 70-74.
– reference: Winans, S.S. & Powers, J.B. (1977) Olfactory and vomeronasal deafferentation of male hamsters: histological and behavioral analyses. Brain Res., 126, 325-344.
– reference: Wysocki, C.J., Wellington, J.L. & Beauchamp, G.K. (1980) Access of urinary nonvolatiles to the mammalian vomeronasal organ. Science, 207, 781-783.
– reference: Stowers, L., Holy, T.E., Meister, M., Dulac, C. & Koentges, G. (2002) Loss of sex discrimination and male-male aggression in mice deficient for TRP2. Science, 295, 1493-1500.
– reference: Lloyd-Thomas, A. & Keverne, E.B. (1982) Role of the brain and accessory olfactory system in the block to pregnancy in mice. Neuroscience, 7, 907-913.
– reference: Armstrong, S.D., Robertson, D.H.L., Cheetham, S.A., Hurst, J.L. & Beynon, R.J. (2005) Structural and functional differences in isoforms of major urinary proteins: a male specific protein that preferentially binds a male pheromone. Biochem. J., 391, 343-350.
– reference: Beauchamp, G.K., Yamazaki, K., Wysocki, C.J., Slotnick, B., Thomas, L. & Boyse, E.A. (1985) Chemosensory recognition of mouse major histocompatibility types by another species. Proc. Natl. Acad. Sci. USA, 82, 4186-4188.
– reference: Lin, W., Arellano, J., Slotnick, B. & Restrepo, D. (2004) Odors detected by mice deficient in cyclic nucleotide-gated channel subunit A2 stimulate the main olfactory system. J. Neurosci., 24, 3703-3710.
– reference: Yamazaki, K., Beauchamp, G.K., Imai, Y., Bard, J. & Boyse, E.A. (1992) Expression of urinary H-2 odortypes by infant mice. Proc. Natl. Acad. Sci. USA, 89, 2756-2758.
– reference: Rajendren, G., Dudley, C.A. & Moss, R.L. (1990) Role of the vomeronasal organ in the male-induced enhancement of sexual receptivity in female rats. Neuroendocrinology, 52, 368-372.
– reference: Leypold, B.G., Yu, C.R., Leinders-Zufall, T., Kim, M.M., Zufall, F. & Axel, R. (2002) Altered sexual and social behavior in trp2 mutant mice. Proc. Natl. Acad. Sci. USA, 99, 6376-6381.
– reference: Hurst, J.L., Payne, C.E., Nevison, C.M., Marie, A.D., Humphries, R.E., Robertson, D.H.L., Cavaggioni, A. & Beynon, J.B. (2001) Individual recognition in mice mediated by major urinary proteins. Nature, 414, 631-634.
– reference: Halem, H.A., Cherry, J.A. & Baum, M.J. (2001) Central forebrain Fos responses to familiar male odours are attenuated in recently mated female mice. Eur. J. Neurosci., 13, 389-399.
– reference: Yamaguchi, M., Yamazaki, K., Beauchamp, G.K., Bard, J., Thomas, L. & Boyse, E.A. (1981) Distinctive urinary odors governed by the major histocompatibility locus of the mouse. Proc. Natl. Acad. Sci. USA, 78, 5817-5820.
– reference: Dudley, C.A., Rajendren, G. & Moss, R.L. (1996) Signal processing in the vomeronasal system: modulation of sexual behavior in the female rat. Crit. Rev. Neurobiol., 10, 265-290.
– reference: Leinders-Zufall, T., Lane, A.P., Puche, A.C., Ma, W., Novotny, M.V., Shipley, M.T. & Zufall, F. (2000) Ultrasensitive pheromone detection by mammalian vomeronasal neurons. Nature, 405, 792-796.
– reference: Schaefer, M.L., Young, D.A. & Restrepo, D. (2001) Olfactory fingerprints for major histocompatibility complex-determined body odors. J. Neurosci., 21, 2481-2487.
– reference: Luo, M., Fee, M.S. & Katz, L.C. (2003) Encoding pheromonal signal in the accessory olfactory bulb of behaving mice. Science, 299, 1196-1201.
– reference: Leinders-Zufall, T., Brennan, P., Widmayer, P.S.P.C., Maul-Pavicic, A., Jager, M., Li, X.H., Breer, H., Zufall, F. & Boehm, T. (2004) MHC class I peptides as chemosensory signals in the vomeronasal organ. Science, 306, 1033-1037.
– reference: Meredith, M. (1986) Vomeronasal organ removal before sexual experience impairs male hamster mating behavior. Physiol. Behav., 36, 737-743.
– reference: Beauchamp, G.K., Martin, I.G., Wysocki, C.J. & Wellington, J.L. (1982) Chemoinvestigatory and sexual behavior of male guinea pigs following vomeronasal organ removal. Physiol. Behav., 29, 329-336.
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Snippet The role of the vomeronasal organ (VNO) in mediating neuroendocrine responses in female mice is well known; however, whether the VNO is equally important for...
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StartPage 521
SubjectTerms accessory olfactory system
Analysis of Variance
Animals
Behavior, Animal
Discrimination, Psychological - physiology
Electrophoresis, Polyacrylamide Gel - methods
Female
Gene Expression - physiology
Gonadotropin-Releasing Hormone - pharmacology
Human health sciences
Immunohistochemistry - methods
Male
mate recognition
Maze Learning - physiology
Mice
Mice, Inbred C57BL
Molecular Weight
Neurologie
Neurology
Neurosciences & behavior
Neurosciences & comportement
Odorants
olfaction
Olfactory Pathways - metabolism
Posture
Proto-Oncogene Proteins c-fos - metabolism
Sciences de la santé humaine
Sciences sociales & comportementales, psychologie
Sexual Behavior, Animal - drug effects
Sexual Behavior, Animal - physiology
sexual behaviour
Smell - physiology
Social & behavioral sciences, psychology
Urine - chemistry
Vomeronasal Organ - physiology
Title The vomeronasal organ is required for the expression of lordosis behaviour, but not sex discrimination in female mice
URI https://api.istex.fr/ark:/67375/WNG-C407NNLP-5/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fj.1460-9568.2005.04589.x
https://www.ncbi.nlm.nih.gov/pubmed/16420459
https://www.proquest.com/docview/17124646
https://www.proquest.com/docview/70696744
http://orbi.ulg.ac.be/handle/2268/91521
https://pubmed.ncbi.nlm.nih.gov/PMC2266683
Volume 23
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