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The Physiology of Oxytocin and Its Role in Social Behavior and Health. Philip McCabe Department of Psychology Health Psychology Program; Neuroscience Program University of Miami Coral Gables, FL. Oxytocin. Oxtocin (OT) means “Quick Birth”
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The Physiology of Oxytocin and Its Role in Social Behavior and Health Philip McCabe Department of Psychology Health Psychology Program; Neuroscience Program University of Miami Coral Gables, FL
Oxytocin • Oxtocin (OT) means “Quick Birth” • OT found in placental mammals, some marsupial mammals, and the ratfish • Related peptides found in most other species (e.g., isotocin)
Oxytocin: Chemical Properties • 9 amino acid peptide • Molecular weight is 1007 • Differs from vasopressin (AVP) by amino acids at positions 3 and 8
Oxytocin: Biosynthesis • Human OT gene mapped to chromosome 20p13 • Gene transcribes inactive precursor, OT-Neurophysin I, which is hydrolyzed by enzymes into smaller fragments, including OT and Neurophysin Gimpl & Fahrenholz, 2001
Hypothalamic Source of OT • OT synthesized in hypothalamic magnocellular neurons in the paraventricular nucleus (PVN) and supraoptic nucleus (SON) • OT also found in some parvocellular neurons in PVN
Hypothalamic OT Cell Bodies PVN 3V SON Optic Chiasm Ludwig & Leng, Nature Reviews Neuroscience, 2006
OT: Beyond Reproduction • Classic OT functions related to parturition and milk ejection in females • OT found in equivalent concentrations in the posterior pituitary and plasma of both sexes • Suggests OT has functions beyond female reproductive functions
Plasma Titers of OT • Human 0.13pg/ml-414pg/ml • Monkey 5.0pg/ml-275pg/ml • Cow 1.0pg/ml-10.0pg/ml • Rabbit 8.0pg/ml-3000pg/ml • Rat 1.0pg/ml-700pg/ml • Guinea Pig 1.0pg/ml-25pg/ml • Vole 250pg/ml-500pg/ml • Mouse 1.0pg/ml-300pg/ml
OT Release and Metabolism • Evidence that OT is released in a pulsatile fashion • Turnover rate of OT is fast • Half life in plasma reported between 2-12 minutes (most estimates between 2-7 minutes) • Half life in brain is longer (approx. 30 minutes) • OT is metabolized by an enzyme, oxytocinase • At physiological concentrations, OT does not appear to cross the blood-brain-barrier
OT Tissue Expression • OT is also expressed in a variety of tissues, including: • Ovaries/Corpus Luteum, Uterus, Placenta, Prostate Gland, Testes/Leydig Cells, Thymus, Adrenal Medulla, Heart, Aorta, Cancer Tumors, Brain • OT may have local autocrine/paracrine actions
Oxytocin Receptor (OTR) • OTR is a 389 amino acid polypeptide • 7 transmembrane domains • G-protein coupled receptor • OTR gene is present as single copy mapped to chromosome 3 in humans • Forms a subfamily of structurally related receptors with 3 vasopressin receptor subtypes (V1a, V1b, and V2) Gimpl & Fahrenholz, 2001
Oxytocin Receptor Gimpl & Fahrenholz, 2001
OTR Selectivity • OTR is relatively non-selective • OTR has only a 10-fold higher affinity for OT than AVP • AVP acts as partial agonist for OTR • Need 100-fold greater concentration of AVP than OT to get a comparable response Gimpl & Fahrenholz, 2001
OTR Signaling Pathways • OTRs are functionally coupled to Gq/11α class GTP binding proteins that stimulate phospholipase C-β isoforms • Leads to production of inositol triphosphate, which triggers Ca++ release from intracellular stores, and diacylglycerol • This stimulates protein kinase C, which phosphorylates target proteins and activates the ERK1/2 pathway • Intracellular Ca++ leads to production of nitric oxide and cGMP
OTR Signaling Pathways Devost, Wrzal & Zingg, 2008
OTR Regulation • OTRs go through dramatic tissue-specific up and down regulation (as much as 10-100 fold) • Regulation occurs at the transcriptional, translational and protein levels • Down regulation of OTR can occur in seconds/minutes as receptor uncouples from the G-protein and undergoes endocytosis, internalization and sequestration Devost, Wrzal & Zingg, 2008
OTR Regulation • OTRs require two elements for high affinity binding: divalent cations (Mg++ or Mn++) and cholesterol (membrane stabilization) • Estrogen up regulates the expression of OTRs, whereas progesterone inhibits the action of OTRs
OTRs: Acute-Phase Response Elements? • Promoter region of OTR gene contains IL-6 response elements and acute- phase response elements • Suggests that the acute induction of OTR expression could be similar to induction of acute-phase response genes induced by infection or inflammation
OTR Tissue Expression • OTRs are expressed in a variety of tissues, including: • Specific brain regions, uterus, mammary glands, pituitary gland, prostate gland, heart, blood vessels, kidney, pancreas, adrenal gland, cancerous tumors (e.g., breast, uterus, brain, lung), lymphocytes, macrophages and adipocytes • No OTRs observed in liver
Role of OT in Social Behavior and Brain Activity • Beginning in 1970’s, OT implicated in coordination of behaviors in mothers necessary for survival of offspring (i.e., maternal behavior) • Accumulating evidence that OT acts in the brain to modulate constellation of behaviors associated with sociality (social cognition & affiliative behavior in both sexes; see Ross & Young, 2009 for review)
Maternal Care in Rodents • OT injected intracerebroventricularly (i.c.v.) in virgin rats elicited maternal behavior toward pups within 2 hours (facilitated by estrogen priming) • i.c.v. administration of OT antagonists (OTAs) blocked maternal behavior in rats who just gave birth • OT plays more important role in the initiation of maternal behavior than the maintenance of these behaviors • OT knockout mice (OTKO) and OTR knockouts (OTRKO) support these pharmacological findings
Ovine Maternal Bonding • Sheep form strong selective mother-lamb social bonds, and mothers will reject lambs who are not their offspring • This effect seems to be dependent on olfactory memory • i.c.v. OT induces maternal behavior in less than one minute in estrogen-primed nonpregnant ewes, and facilitates olfactory memory by modulating norepinephrine and synaptic plasticity in the olfactory bulb
Alloparental Behavior in Voles • Unlike most rodents and mammals, prairie voles are socially monogamous, and form selective preference for one mate (i.e., pair bond) • Prairie voles also display biparental care, and will “baby sit” vole pups not their own • There is evidence that OTR density in the nucleus accumbens (NAcc) of the brain is related to this alloparental care
OTR Density in NAcc and Alloparental Behavior (Olazabal & Young, 2006)
Social Bonding in Adult Voles • i.c.v. infusion of OT during 6 hr cohabitation with male induces partner preference in unmated female voles • OTA administration in mated females blocks pair bonding • i.c.v. AVP in males induces partner preference • AVP antagonist blocks pair bonding in males • Role of OT in male pair bonding not clear Ross & Young, 2009
OT and AVP in Pair Bonding Young, Wang & Insel, 1998
Pair Bonding and NAcc OTRs • Monogamous prairie voles have greater density of OTRs in NAcc than non-monogamous species of voles • OTA injected into NAcc in female prairie voles prevented the formation of a partner preference • Over-expression of OTRs in NAcc enhanced pair bonds in prairie voles, but not other species of voles • Therefore, increased OTR in NAcc alone is not sufficient to produce species differences in pair bonding Ross & Young, 2009
Pair Bonding and NAcc OTRs Insel & Young, 2001
Why Is NAcc OT Important? • NAcc receives dopamine input from midbrain ventral tegmental area, and is part of mesolimbic dopamine reward/reinforcement pathway • It has been shown in female prairie voles that dopamine and OT systems interact in NAcc to promote pair bonding (i.e., reinforcement of the mating experience) • It has been suggested that ability of female to form attachment with male partner evolutionarily arose from a modification of the neural machinery involved in regulating maternal behavior Ross & Young, 2009
Social Recognition in Rodents • It has been hypothesized that pair bond formation is due to an association between the rewarding mating experience and the olfactory signature of the partner (i.e., social recognition) • i.c.v. OT increases the amount of time a male rat remembers a conspecific
Brain Mechanisms in Social Recognition • Brain regions implicated in rodent social memory are: • Ventral Hippocampus, Septal Nuclei, Medial Preoptic Area and Olfactory Bulb • Although OT injected into these regions enhances memory, OTA administration does not block memory performance, and therefore the brain mechanisms for social recognition are not clear
OTKO Mice and Social Memory • OTKO mice show deficits in social memory, but not general memory deficits (e.g., habituation to non-social odors) • A single i.c.v. injection of OT before initial exposure completely rescues the deficit in social recognition • Effect seems to involve the medial amygdala • OT may act to enhance the saliency of social stimuli and to encode social memories, which facilitates social relationships Ross & Young, 2009
Neural Circuitry of OT System • Cell bodies of OT neurons are almost exclusively confined to the hypothalamic PVN and SON • OT fibers are located throughout the CNS: • Dorsal Medial Hypothalamus, Several Thalamic Nuclei, NAcc, Hippocampus, Entorhinal Cortex, Septal Nuclei, Amygdala, Olfactory Bulbs, Periaqueductal Grey, Substantial Nigra, Locus Coeruleus, Raphe Nuclei, Nucleus Tractus Solitarius, Dorsal Vagal Nucleus, Spinal Cord
Central OT Projections B.B. McEwen, 2004
Central OT Projections • Prevailing view is that separate populations of OT neurons project to posterior pituitary and to CNS structures • SON and PVN magnocellular neurons project to the posterior pituitary • PVN parvocellular neurons are the source of centrally projecting fibers • Evidence that central and peripheral OT release can be dissociated
Dendritic Release of OT • Peptidergic neurons can release peptide from entire cell surface, and peptide can diffuse long distances due to longer CNS half-life • OT can be released by dendrites independent of neuronal firing • Dendritically-released OT can have local autocrine/paracrine actions, or can diffuse to distant brain sites Ludwig & Leng, 2006
Differential Regulation of Dendritic and Axonal OT Secretion Ludwig & Leng, 2006
Role of OT in Stress and Emotion • A variety of stressors and stress paradigms result in increased plasma OT: • Noxious Stimuli (e.g., footshock) • Shaker Stress • Forced Swimming • Immobilization Stress • Fear Conditioning • And increased secretion of CNS OT: • Forced Swimming (increased PVN & SON OT) • Social Defeat (increased SON OT) • Shaker Stress (increased PVN OT)
Role of OT in Stress • Given that OT is released in brain as a function of various types of stress, what is the significance of this local hypothalamic release? • Since hypothalamic OT is released at the same time as activation of the HPA axis, does brain OT regulate HPA function? Neumann, 2008
Central OT Regulation of HPA Axis • i.c.v. OT infusions in rats reduces plasma corticosterone release to wide variety of physical, emotional and pharmacological stressors in both male and female rodents • Suggests OT can modulate HPA axis, probably via inhibition of CRH in PVN • Elevated brain OT may serve to buffer the organism from stress Neumann, 2008
Central OT Regulation of Anxiety-Related Behavior • i.c.v. administration of OT in both female and male rats exerted an anxiolytic effect (assessed by elevated plus maze) • These effects were localized to the central nucleus of the amygdala and PVN • Over expression of amygdaloid OTR in virgin female rats reduced anxiety-related behavior compared to control virgin females Neumann, 2008
Stress Responses and Anxiety Related Behavior in OTKO Mice • Deletion of OT gene in females led to increased anxiety-related behavior and elevated plasma corticosterone during anticipation of shaker stress • In OTKO males, elevated corticosterone was seen following overnight food and water deprivation • Both OTKO and OTRKO mice exhibited heightened aggression compared to wild type mice Amico et al., 2008
Central OT, Stress and Emotion • Increased central OT leads to reduced anxiety and calmness accompanied by blunted plasma glucocorticoid responses • It appears that the OT system is activated in response to particular stressors, and serves to attenuate both the physiological stress response and the emotional component of the response
Role of OT in Inflammation • OT shown to reduce inflammation and oxidative stress in several models: • Carrageenan-Induced Inflammation (hindpaw) • Wound Healing/Burns • Sepsis Induction • Colonic Inflammation • Renal Injury • Suggests that OT is an endogenous anti-inflammatory and anti-oxidant molecule • Does OT play a role in the attenuation of disease via anti-oxidant and anti-inflammatory mechanisms?
Behavior & Atherosclerosis • In our lab, we sought to examine the influence of social environment and emotional behavior on the progression of atherosclerosis • Developed an animal model of disease that would allow us to study more easily the pathophysiological mechanisms in atherosclerosis
Watanabe Heritable Hyperlipidemic Rabbit (WHHL) • Model for human familial hypercholesterolemia • Spontaneous genetic mutation in LDL receptor synthesis • Extremely high plasma lipids from birth • Aortic atherosclerosis begins at 2 months, severe in all animals by 7 months, CHD develops by 8-10 months, death occurs after 1 year • Since disease occurs spontaneously, can examine factors that slow the progression of disease as well as factors that advance disease progression
Social Environment and Progression of Atherosclerosis in the WHHL(McCabe et al., 2002, Circulation) • 33 male WHHLs, 3 months of age • Assigned to one of 3 social conditions: • Unstable (paired with unfamiliar rabbit 4hrs/day, pairing rearranged each week) • Stable (paired with littermate 4hrs/day, pairing maintained throughout study) • Individually-caged (housed alone, no contact with other animals) • Study ran from 3 to 7 months of age
Study Conclusions • Stable social environment, characterized by increased affiliative behavior and decreased agonistic behavior, slows the progression of atherosclerosis by approximately 50% in animals genetically predisposed to disease • Group differences in disease could not be explained by differences in lipids, glucocorticoids, or gonadal steroids • Is disease attenuation in the Stable group related to oxytocin’s antioxidant and antiflammatory effects on vascular tissue?