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Hormones and Behavior

Hormones and Behavior. Hormones Modulate Behavior Hormones Can Be Necessary for a Behavior A particular level of hormone in an animal does not insure a behavior will occur. A particular level of hormone does not have the same effect in every animal. Hormones. Environment. Nervous System.

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Hormones and Behavior

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  1. Hormones and Behavior • Hormones Modulate Behavior • Hormones Can Be Necessary for a Behavior • A particular level of hormone in an animal does not insure a behavior will occur. • A particular level of hormone does not have the same effect in every animal.

  2. Hormones Environment Nervous System

  3. Social Behavior and Neuropeptides • Oxytocin (OT) and Vasopressin (AVP) • Influence a number of social behaviors including • Pair bonding • Maternal behavior • Affiliative behaviors • Generosity (?) • Promiscuity (?) • Where do they come from and how do they affect the nervous system?

  4. Hypothalamus

  5. Hypothalamus

  6. Preoptic Supraoptic Tuberal Mammillary

  7. Oxytocin and Vasopressin Neurons - Production • Oxytocin and Vasopressin can be released directly circulation and directly into the brain • Peripheral versus Central release • OT and AVP receptors are localized in the limbic system

  8. Oxytocin and Vasopressin • Behavioral Effects • Animal Models – Prairie Vole

  9. California mouse (Peromyscus californicus)

  10. Voles: A Comparative Model • Voles: A Comparative Model • Prairie Voles • Biparental • Monogamous • Mating induces changes in the brain, partner preference • Meadow and Montane Voles • Uniparental • Polygynous

  11. Voles: A Comparative Model • Prairie Voles • OT – females • Facilitates maternal behaviors • Facilitates pair bond formations • AVP – males • Changes (cellular content/ immunoreactivity) with parental experience and cohabitation • Facilitates pair bond formations and parental experience • Site specific

  12. AVP in the Brain (Lateral Septum) withParental Experience Prairie and Meadow Voles Males and Females Parental or Naive

  13. AVP and Prairie Voles • AVP and paternal responsiveness in male voles

  14. Vasopressin Receptor: V1a • Is the V1a receptor necessary for social behaviors? Prairie Voles

  15. AVP Receptor Pattern • Vasopressin Receptor Distribution varies between Prairie and Montane Voles. • Montane pattern is more “typical” of other rodent species, perhaps other mammals.

  16. Vasopressin Receptor, V1a Montane Prairie Staining (Autoradiography) for Vasopressin Receptor

  17. Vasopressin Receptor V1a • What happens if you experimentally make a mouse brain like a vole brain for AVP? Prairie Voles Mice

  18. Oxytocin and Vasopressin in Humans • Several recent studies have begun to show similar roles for these neuropeptides in human behavior • Limbic system – evolutionary conservation

  19. Vasopressin • Gene sequences on alleles may predict behavior • AVPR1a – Gene that codes for vasopressin receptor • Longer alleles (repeat of sequence) more monogamous behavior – voles • Similar sequence may predict success of opposite success relationships in humans (Walum et al., 2008) • Altruistic behavior – more money is given to other participant

  20. Vasopressin and Social Behavior • Intranasal Vasopressin in Men • Stimulates antagonist facial motor patterns to unfamiliar faces, decreases perception of friendliness • Intranasal Vasopressin in Women • Stimulates affiliative facial motor patters and increases perception of friendliness

  21. Oxytocin and Social Behaviors • Oxytocin can be released during social interactions • pair bonding and sex • mother – infant bonding • Birth – uterine contractions • Suckling - lactation • Oxytocin is measured in the blood • Oxytocin is also likely released in the brain

  22. Oxytocin and Trust • Oxytocin can influence Trust • Trust game and monetary exchanges • Oxytocin levels are higher when individuals perceive intentional trust. • Oxytocin ‘correlates’ with level of perceived trust • Pre- and post- measures • Correlation versus causation

  23. Oxytocin and Trust Fig. 2. OT levels and standards errors for DM2s with and without an intention to trust. In the Intention condition, DM1s voluntarily transfer money to DM2s. In the Random Draw condition, the transfer from DM1s to DM2s was determined by a public draw of a numbered ball. OT levels across conditions are statistically different at P < 0.05. P.J. Zak et al. / Hormones and Behavior 48 (2005) 522–527

  24. Oxytocin and Trust • Intranasal oxytocin can influence generosity/ trust • Intranasal OT and neural sites

  25. Oxytocin and Trust Figure 2 | Transfers in the trust and the risk experiment. Each observation represents the average transfer amount (in MU) over four transfer decisions per investor. a, Relative frequency of investors’ average transfers in oxytocin (filled bars) and placebo (open bars) groups in the trust experiment (n ¼ 58). Subjects given oxytocin show significantly higher transfer levels.

  26. Oxytocin and Trust • Intranasal OT increases perception of facial attractiveness, and trustworthiness

  27. Oxytocin • Gene sequences on alleles may predict behavior • OXTR • Specific sequence may predict altruistic behavior and higher social values orientation

  28. OT/AVP Implications • Patterns in the AVP and OT receptor gene sequence may predict autism spectrum disorders. • AVP and OT operate in similar ways in all vertebrates that have been studied. • A mechanism for empathy in humans?

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