Cerda MAL, Mondragón CR, Díaz SV

Language: Spanish
References: 67
Page: 25-32
PDF size: 201.39 Kb.

ABSTRACT

The mammalian olfactory system is specialized for the perception of chemical compounds that regulate a number of functions. The pheromone is the chemical compound most used among species, its effects being either physiological of behavioral, depending on the message transmitted and the context in which it is perceived. Chemical communication by pheromone in mammals is important for regulating reproductive processes and affecting social interactions within populations. Mammals’ most active pheromones are usually found in urine and vaginal secretions. These chemical compounds are perceived via the olfactory epithelium and the vomeronasal organ, which have neural connections with different brain nuclei associated with reproductive regulation and emotions. Yet, it remains controversial whether pheromones are present in Old World anthropoids and humans. Altough in other primates, such as prosimians and New World monkeys, chemical communication is acknowledged in territorial marking, conspecific recognition and socio-sexual behavior. There is still disagreement if in catarrhines, pongids and humans, pheromones participate in sexual attraction. First, because this primates have a small olfactory region, both nasal and neural, when compared to the rest of the mammals. And second, because to date the functionality of the vomeronasal organ, seemingly specialized in pheromone perception in mammals, is considered vestigial in catarrhine monkeys and apes. Some recent works provide evidence that in humans such organ is not vestigial, as it was considered, being a specialized structure in the perception of pheromones which are able to promote sex-dependent physiological changes.

REFERENCES

1. ALBONE ES: Mammalian Semiochemistry: the Investigation of Chemical Signals Between Mammals. John Wiley & Sons Ltd., Londres, 1984.

2. ARON C: Mechanisms of control of the reproductive function by olfactory stimuli in female mammals. Physiol Rev, 59(2):229-284, 1979.

3. ASA CH, MECH L, SEAL U: The use of urine, faeces, and analgland secretions in scent-marking by a captive wolf (Canis lupus) pack. Animal Behavior, 33:1034-1036, 1985.

4. ASA CH, SEAL U, PLOTKA E, LETELLIER M, MECH L: Effect of anosmia on reproduction in male and female wolves (Canis lupus). Behavioral Neural Biology, 46:272-284, 1986.

5. BRONSON F, COQUELIN A: The Modulation of Reproduction by Priming Pheromones in House Mice: Speculations on Adaptive Function. En: Müller D, Silverstein R (eds.).Chemical Signals. Plenum Publising Corporation, 243-265,Londres, Nueva York, 1980.

6. BRUCE H: Time relations in the pregnancy block induced in mice by strange males. J Reprod Fert, 2:138-142, 1961.

7. BUTLER H: Evolutionary trends in primate sex cycles. En: Kargel B. Contributions to Primatology, 3:14-22, 1974.

8. BLAFFER S, WHITTEN P: Patterning of sexual activity. En: Smuts B, Seyfarth D, Wrangham R, Struhsakern T (eds.). Primate Societies. University of Chicago Press, 370- 384, Chicago, 1987.

9. COLBY D, VANDENBERG JG: Regulatory effects of urinary pheromones on puberty in the mouse. Biol Reprod, 11:268-273, 1974.

10. COQUELIN A, CLANCY A, MACRIDES F, NOBLE E, GORSKI R: Pheromonally induced release of luteinizing hormone in male mice: involvement of the vomeronasal system. J Neurosci, 4:2230-2236, 1984.

11. CRUZ Y, MARTINEZ-GOMEZ M, VILLALPANDO I, DRUMMOND H, HUDSON R: El MHC en la elección de pareja: ¿realidad biológica o artefacto? En: Martínez- Gómez M, Velázquez-Moctezuma J (eds.). Bases Neurobiológicas y Ecológicas de la Conducta. UAT, UAM,UV, UNAM, 9l-116, México, 1998.

12. CURTIS R: Identification of primate sexual pheromones and the properties of synthetic attractants. Nature, 232: 396-398, 1971.

13. DARWIN CH: La Expresión de las Emociones en los Animales y en el Hombre. Alianza Editorial, 1-5, Madrid, 1984.

14. DAVIES V, BELLAMY D: The olfactory response of mice to urine and the effects of gonadectomy. J Endocrinol, 55:1-20, 1972.

15. DIAZ V, MORALES A, QUIROGA C, MONTI-BLOCH L, JENNINGS-WHITE C, BERLINER D: Feromonas en el humano: redescubriendo el sexto sentido. En: Velázquez- Moctezuma J (ed.). Biología de la Reproducción. UAM, 441-457, México, 1998.

16. DIXON A: Primate Sexuality. Oxford University Press, 143,183, Oxford, Nueva York, 1998.

17. DORRIES K: Sex differences in olfaction in mammals. En: Serby M, Chobor K (eds.). Science of Olfaction. Springer-Verlag, 245-275, Nueva York , 1992.

18. EISTHEN H, WYSOCKI CH, BEAUCHAMP G: Behavioral responses of male guinea pigs to conspecific chemical signals following neonatal vomeronasal organ removal. Physiology & Behavior, 41:445-449, 1987.

19. FIBER J, SWANN J: Testosterone differentially influences sex-specific pheromone-stimulated fos expression in limbic regions of syrian hamsters. Hormones Behavior, 30:455-476, 1996.

20. GANGESTAD S, THORNHILL R: Menstrual cicle variation in women’s preferences for the scent of symmetrical men. Proc R Soc Lond B, 265:927-933, 1998.

21. GOLDFOOT A, ESSOCK S, ASA C, THORNTON J, LESHNER A: Anosmia in male rhesus monkey does not alter copulatory activity with cycling females. Science, 199:1095-1096, 1978.

22. HARRINGTON A, ROSARIO V: Olfaction and the primitive: nineteenth-century medical thinking on olfaction. En: Serby M, Chobor K (eds.). Science of Olfaction. Springer- Verlag, 3-27, Nueva York, 1992.

23. JORDAN J: The vomeronasal organ (of Jacobson) in primates. Folia Morphologica (Warsz.) 31:418- 432, 1972.

24. JENNINGS-WHITE C: Perfumery and the sixth sense. Perfumer & Flavorist, 20, 1995.

25. JONES R, NOWELL N: The urinary aversive pheromone of mice: species, strain and grouping effects. Animal Behavior, 22:187-191, 1974.

26. JUNQUEIRA L, CARNEIRO J, CONTOPOULOS A: Histología Básica. 2da. California Lange Medical Publications, 446, 1977.

27. KARLSON P, LÜSCHER M: “Pheromones” a new term for a class of biologically active substances. Nature, 183:155-156, 1959.

28. KELLIHER K, CHANG Y-M, WERSINGER S, BAUM M: Sex difference and testosterone modulation of pheromone-induced neuronal fos in the ferret’s main olfactory bulb and hypothalamus. Biology Reproduction, 59:1454-1463, 1998.

29. LINNANKOSKI I, HYTÖNEN Y, LEINONEN L, HYVÄRINEN J: Determinants of sexual behavior of Macaca arctoides in a laboratory colony. Archives Sexual Behavior, 10:207-222, 1981.

30. MACRIDES F, CLANCY A, SINGER A, AGOSTA W: Male hamster investigatory and copulatory responses to vaginal discharge: an attempt to impart sexual significance to an arbitrary chemosensory stimulus. Physiol Behav, 33:627-632, 1984.

31. MAIER W: The nasopalatine duct and the nasal floor cartilages in catarrhine primates. Z Morph Anthrop, 81(3):289-300, 1997.

32. MARTIN I G: “Homeochemic”, intraspecific chemical signal. J Chemical Ecology, 6: 517- 519, 1980.

33. MAYAGOITIA L: Preferencias de ratones machos y hembras por olores de conespecíficos. Comparación entre cuatro cepas. Tesis Doctoral, Fac. de Psicología, UNAM, 3-9, México, 1989.

34. McLEAN J, SHIPLEY M: Neuroanatomical substrates of olfaction. En: Serby M, Chobor K (eds.). Science of Olfaction. Springer-Verlag, 126-171, Nueva York, 1992.

35. McCLINTOCK M: Menstrual synchrony and suppression. Nature, 291: 244-245, 1971.

36. McCLINTOCK M: Estrous synchrony: modulation of ovarian cycle length by female pheromones. Physiol Behav, 32:701-705, 1984.

37. MEREDITH M: Sensory processing in the main and accesory olfactory systems: comparisons and contrasts. J Steroid Biochem Molec Biol, 39:601-614, 1991.

38. MEYER D, RASTOGI R: Olfaction and reproduction. En: Knobil E (ed.). Encyclopedia of Reproduction. Academic Press, 3:45-456, Nueva York, 1999.

39. MICHAEL R, BONSALL R, ZUMPE D: Evidence for chemical communication in primates. Vitamins Horm, 34:137-185, 1976.

40. MICHAEL R, KEVERNE E: Pheromones and the communication of sexual status in primates. Nature Lond, 218:746-749, 1968.

41. MOMBAERTS P, WANG F, DULAC C, CHAO S, NEMES A, MENDELSOHN M, EDMONSON J, AXEL R: Vlsualizing an olfactory sensory map. Cell, 87:675-686, 1996.

42. MONDRAGON-CEBALLOS R: Zoosemiótica y cognición. En: Díaz J (ed.). La Mente y el Comportamiento Animal: Ensayos en Etología Cognitiva. UNAM, Fondo de Cultura Económica, 75- 90, México, 1994.

43. MONTI-BLOCH L, GROSSER B: Effect of putative pheromones on the electrical activity of the human vomeronasal organ and olfactory epithelium. J Steroid Biochem Molec Biol, 39:573-582, 1991.

44. MONTI-BLOCH L, DIAZ-SANCHEZ V, JENNINGS-WHITE C, BERLINER L: Modulation of serum testosterone and autonomic function through stimulation of the male human vomeronasal organ (VNO) with pregna-4, 20-diene-3, 6-dione. J Steroid Biochem Molec Biol, 65: 237-242, 1998.

45. MOORE C, SAMONTE B: Preputial glands of infants rats (Rattus norvengicus) provide chemosignals for maternal discrimination of sex. J Comparative Psychology, 100:76-80, 1986.

46. MORRISON E, CONSTANZO R: Morphology and plasticity of the vertebrate. En: Serby M, Chobor K (eds.). Science of Olfaction. Springer-Verlag, 31-50, Nueva York, 1992.

47. REGNIER: Olfactory epithelium. Semiochemical: structure and function. Biology Reproduction, 4:309-326, 1971.

48. ROGEL M: A critical evaluation of the possibility of higher primate reproductive and sexual pheromones. Psychological Bolletin, 85(4):810-830, 1978.

49. SAVAGE A, ZIEGLER T, SNOWDON CH: Sociosexual development, pair formation, and mechanisms of fertility suppression in female cotton-top tamarins (Saguinus oedipus). American J Primatology, 14:345-359, 1988.

50. SCHILLING A, PERRET M: Chemical signals and reproductive capacity in a male prosimian primate (Microcebus murinus). Chemical Senses, 12(1):143-158, 1987.

51. SCHUTLE B, RASMUSSEN L: Signal-receiver interpley in the communication of male condition by Asian elephants. Animal Behavior, 57:1265-1272, 1999.

52. SCOTT J: Observation. En: Sabeok T (eds.). Animal Communication. Indiana University Press. 3-14, Bloomington, 1968.

53. SEGOVIA S, GUILLAMON A: Searching for sex differences in the vomeronasal pathway. Hormones Behavior, 30:618-626, 1996.

54. SELLER A: Communication by sight and smell. En: Smuts B, Seyfarth D, Wrangham R, Struhsaker T (eds.). Primate Societies. University of Chicago Press, 433-439, Chicago,1987.

55. SERBY M, CHOBOR K: Introduction. En: Serby M, Chobor K (eds.). Science of Olfaction. Springer Verlag, 18-19,Nueva York, 1992.

56. SIGNORET J: Sexual pheromones in the domestic sheep: importance and limits in the regulation of reproductive physiology. J Steroid Biochem Molec Biol, 39:639-645, 1991.

57. SINGER A: A chemistry of mammalian pheromones. J Steroid Biochem Molec Biol, 39:627-632, 1991.

58. SINGER A, MACRIDES F, CLANCY A, AGOSTA A: Purification and analysis of a proteinaceous aphrodisiac pheromone from hamster vaginal discharge. J Biol Chem, 261:13323-13326, 1986.

59. SLATER P: Introducción a la etología. Consejo Nacional para la Cultura y las Artes,190-194, México, 1988.

60. SMITH T, ABBOTT D: Behavioral discrimination between circumgenital odor from peri-ovulatory dominant and anovulatory female common marmosets (Callithrix jacchus). American J Primatology, 46:265-284, 1998.

61. STENSAAS L, LAVKER R, MONTI-BLOCH L, GROSSER B, BERLINER D: Ultrastructure of the human vomeronasal organ. J Steroid Biochem Molec Biol, 39:553-560, 1991.

62. STERN K, MCCLINTOCK M: Regulation of ovulation by human pheromones. Nature, 12:177-179, 1998.

63. STODDART D: Mammalian odours and pheromones. Studies in Biology, 73:1-l9, Gran Bretaña, 1976.

64. TAYLOR G, BARTKO G, FARR S: Gonadal hormones and conspecific marking in male rats. Hormones Behavior, 21:234-244, 1987.

65. THORNHILL R, GANGESTAD S: The scent os symmetry: a human sex pheromone that signals fitness? Evolution Human Behavior, 20:175-201, 1999.

66. WYSOCKI C, NYBY G, WHITNEY G, BEACHAUMP G, KATS Y: The vomeronasal organ: primary role in mouse chemosensory gender identification. Physiol Behav, 29:315-327, 1982.

67. WHITTEN W: Ocurrence of anoestrus in mice caged in groups. J Endocrinol, 18:102-107, 1959.