Social Attachment Social attachment involves development of a “social bond” between individuals....
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Transcript of Social Attachment Social attachment involves development of a “social bond” between individuals....
Social Attachment
• Social attachment involves development of a “social bond” between individuals.
• A social bond can form between a mother and her offspring.
– Ex. Sheep (ewe and lamb)
– moms nurse only their own young (lambs) and reject the lambs of other females
• A social bond can form between an adult female or male and their mate.
– Ex. voles
– prairie vole--monogamous species in which one male pairs with one female, a relationship
that often extends the lifetime of the individuals; males and females prefer to spend time
with each other, they engage in biparental care and show aggression against intruders
– montane vole--polygamous species in which males and females pair repeatedly with
different members of their species, with females showing most of the parental care
• Oxytocin has been implicated in the social bond that forms between the ewe and her
lamb, as well as social bonding in female prairie voles.
• Vasopressin has been implicated in social bonding in male prairie voles.
Social Attachment-Sheep
Nonpregnant ewes:
• show aversion to the odors of lambs--avoid or withdraw from lambs
• show aggression toward lambs--“butting” lambs
Immediately after parturition, the pregnant ewe shows two responses:
• maternal behavior
– approaching and following the lamb
– low-pitched bleating (vocalizations)
– sniffing and licking the lamb
– permitting suckling (nursing)
– behaviors inhibited: withdrawing from lamb & butting the lamb
• olfactory recognition of lamb
– formation of a social bond with lamb leading to selective nursing of own lamb but not that
of others (formation of an olfactory memory)
Social Attachment-Sheep• Hormonal and somatosensory inputs are critical for the display of maternal behavior.
– near the end of pregnancy, levels of estrogen and prolactin rise, while the levels of
progesterone drop
– prolonged exposure to progesterone and estrogen during pregnancy is important for
priming the brain to respond to the triggering effects of the drop in progesterone and the
rise in estrogen at the time of parturition (prolactin is not thought to be critical for maternal
behavior in the ewe)
– vaginocervical stimulation (VCS) experienced during the process of birth is important in
stimulating the display of maternal behavior
– block “neural transmission” associated with VCS by administering an anesthetic to the
spinal cord (dura) 1 1/2 hours prior to parturition, maternal behavior will be blocked in 90%
of primiparous ewes (birth of first lamb) and in 25% of multiparous ewes
– if you stimulate the vagina and cervix of nonpregnant ewes primed with gonadal steroids,
maternal behavior will be stimulated; this effect is not seen in nonpregnant females that
have not been hormonally primed
Social Attachment-SheepOxytocin--a critical hormone in the activation of maternal behavior.
• Oxytocin levels increase during parturition.
– oxytocin levels increase significantly within the bloodstream during parturition--uterine
contractions, and during nursing--milk-letdown
– oxytocin levels also increase significantly within the brain as measured by increased levels
within the cerebrospinal fluid (CSF)--fluid that bathes the brain
– increased oxytocin levels within the cerebrospinal fluid reflects synthesis and release within
the brain as little oxytocin from the bloodstream is thought to pass through the blood-brain-
barrier in the adult
• Oxytocin plays a critical role in “activating” maternal behavior.
– in hormonally-primed ewes, administration of oxytocin within the cerebrospinal fluid
(CSF) will stimulate the display of maternal behavior--approaching and following the lamb,
low-pitched bleating, permitting suckling, sniffing and licking the lamb, and reduced
aversive and aggressive responses
– note--administration of prolactin does not stimulate maternal behavior in sheep
Social Attachment-SheepOxytocin--a critical hormone in the activation of maternal behavior.
• Gonadal steroids and VCS play a critical role in oxytocin regulation.
– in hormonally-primed ewes, VCS leads to increased release of oxytocin within the brain as
evidenced by increased levels of oxytocin within the cerebrospinal fluid; this effect is not
seen in nonpregnant, nonhormonally primed females
– as noted previously: if “neural transmission” associated with VCS is blocked by
administering an anesthetic to the spinal cord (dura) 1 1/2 hours prior to parturition,
maternal behavior will be blocked in 90% of primiparous ewes (birth of first lamb) and in
25% of multiparous ewes
– blocking “neural transmission” associated with VCS blocks the rise in oxytocin levels
within the CSF; administration of oxytocin to ewes with a spinal block will restore
maternal behavior
Social Attachment-SheepNeuroanatomy:
• Hormonal priming serves to increase oxytocin levels and oxytocin receptors.
• VCS stimulates release of oxytocin from the PVN.
• Oxytocin neurons within the PVN project to numerous brain regions with select
functions:
– reduction in aggressive and aversive responses: oxytocin release within MPOA, BNST,
medial amygdala and olfactory bulbs
– formation of olfactory memory: oxytocin release within the olfactory bulbs
– inhibition of female sex behavior: oxytocin release within the hypothalamus (medibasal
hypothalamus--MBH)
– immobilization: oxytocin release within the substantia nigra (important for nursing)
– facilitation of positive responses (e.g., approach and following, vocalizations): oxytocin
release within lateral septum, cingulate cortex and ventral tegmental area (VTA)
Social Attachment-Sheep• Oxytocin--a critical hormone in the development of a social bond.
– within 1-2 hours following parturition, ewe will form a social bond with her lamb
– this “social bond” consists of a lasting olfactory memory that allows the ewe to identify her
lamb and to allow for selective nursing of her own lamb but not that of others
– formation of this “social bond” is critical--if this bond does not form, the ewe will not allow
her lamb to suckle
– hormonal priming and VCS are important as they increase the levels of oxytocin within the
brain “activating” maternal behavior and stimulating the development of a “social bond”.
• It is possible to cause a female ewe to bond to a strange lamb:
– if a pregnant ewe has given birth to her lamb, and 2-3 days later you manually stimulate her
vagina and cervix, she will accept and bond with a strange lamb even after she has already
bonded with her own lamb
– manual stimulation has led to increases in oxytocin levels within the brain that stimulated
the development of an olfactory memory
Social Attachment-Sheep• How does oxytocin play a role in the development of an olfactory memory?
– oxytocin stimulates the development of an olfactory memory by increasing the release of
norepinephrine (NE) from terminals present within the olfactory bulbs
– NE acts within the olfactory bulbs to increase the ewe’s responsiveness to lamb odors (the
mechanism is complex, and additional molecules involved)
– the plastic changes that occur at the level of the olfactory bulbs are transferred to secondary
and tertiary olfactory regions within the brain
• Evidence for this relationship:
– oxytocin levels increase within the olfactory bulb at parturition
– oxtocin facilitates the release of NE within the olfactory bulb at parturition
– blocking the action of NE by administering an antagonist within the olfactory bulb inhibits
the formation of an olfactory memory
– lesioning the olfactory bulbs blocks the formation of a selective “social bond” between ewe
and lamb
OlfactoryBulbs
SensoryReceptors
SecondaryOlfactoryStructures
lambodors
PVN
oxytocin
LocusCoeruleus
NE
+
+
TertiaryOlfactoryStructures
Formation of anOlfactory Memory
Secondary structures: amygdala & piriform cortex
Tertiary structures: orbitofrontal cortex, entorhinal cortex, hippocampus, septum
Social Attachment-Sheep• Maternal experience in multiparous ewes enhances maternal responsiveness.
– it increases the rate at which ewes bond with their lambs: multiparous ewes selectively
bond with their lambs within 2 hours, while primiparous ewes require 4 to 6 hours to bond
with their lambs
– it increases the amount of oxytocin that is released within the olfactory bulbs: oxytocin
release within the olfactory bulbs at parturition is much greater in multiparous ewes than in
primiparous ewes
– it increases the ability of oxytocin to increase release of NE even without hormonal priming
associated with pregnancy: administration of oxytocin into the olfactory bulbs of
multiparous ewes (not currently pregnant) stimulates NE release within the olfactory bulbs,
but this effect is not observed in nulliparous ewes (ewes that were never pregnant)
– it underlies numerous differences that exist between primiparous and multiparous ewes:
Ex. blocking “neural transmission” associated with VCS blocks maternal behavior in 90%
of primiparous ewes but only in 25% of multiparous ewes; multiparous ewes are less
dependent upon VCS to stimulate oxytocin release and to activate maternal behavior
Social Attachment-VolesPrairie Vole--Monogamous Species:
• background history:
– mouse-sized rodent that lives in burrows across the American Midwest
– prairie voles are found in multigenerational family groups with a single breeding pair
– the single breeding pair exhibits the classic features of monogamy: 1) a breeding pair
shares the same nest and territory where they are in frequent contact--high degree of
affiliative behavior (males and females will spend more than 50% sitting side by side), 2)
males and females participate in biparental care, 3) intruders of either sex are rejected, and
4) following the death of one of the pair, a new mate is accepted only 20 % of the time
– prairie voles are an example of a species that shows “induced ovulation and behavioral
estrus”--female must be exposed to a pheromone from an unrelated male which stimulates
her reproductive axis stimulating estrogen secretion, sexual receptivity, mating and then
ovulation
– following mating, a selective and enduring pair bond is formed between male and female
prairie voles
• a female is reproductively inactive
until exposed to a male
• a male pheromone stimulates
GnRH release (neuroendocrine
reflex)
– GnRH release stimulates FSH and
LH release, follicular development
and secretion of estrogen
• increasing levels of estrogen
stimulate behavioral estrus
• vaginocervical stimulation (via
intromissions from male) stimulates
further GnRH release
– GnRH release will lead to LH surge
and ovulation
• after ovulation, progesterone will
maintain pregnancy if necessary
GnRH Neuron
HYPO
ANTPIT
OVARY
LH
GnRH+
GnRH: gonadotrophin releasing hormoneFSH: follicle stimulating hormoneLH: luteinizing hormone
follicle
“ovulation”
vaginocervicalstimulation
spinal cord
GnRH Neuroendocrine Reflex--twice
LHFSH
estrogen
stimulatesex behavior
Induced Estrus &Ovulation
pheromone
Social Attachment-VolesMontane Vole--Polygamous Species:
• background history:
– they are found in isolated burrows (in high meadows in the Rockies)
– they show little interest in social contact; in the laboratory, they spend little time in side-by-
side contact
– males and females mate with multiple partners (hence the term “polygamous”)
– the males show little if any parental care
– the females frequently abandon their young between 8 and 14 days postpartum
– no pair bond is formed between male and female montane voles
Social Attachment-Voles• The formation of a pair bond between a male and female prairie vole results in two
effects:
– preference to spend time with one’s mate over a stranger
– display of high levels of aggression against an intruder
• Partner Preference Test:
– following 24 h exposure to a male, the female prairie vole will spend more time in her
partner’s cage (compared to the time spent in the neutral or stranger cage), while the
female montane vole will spend more time in the neutral cage
• Resident-Intruder Test:
– following 24 h exposure to a female, the male prairie vole shows a significant increase in
the frequency of aggressive responses toward an intruder (40-fold induction); this effect
was sustained for months after long-term housing with females
– in contrast, mating had no effect on intruder aggression in the male montane vole
Social Attachment-VolesWhat makes these species so different?
• Do these species differ with respect to the central pathways for oxytocin or
vasopressin?
• Does oxytocin or vasopressin play a selective role in pair bonding?
• Reason for focusing on oxytocin and vasopressin:
– oxytocin and vasopressin are produced by neurons in the hypothalamus
– these peptides are closely related structurally, differing only in two amino acids
– these two hormones are released into the bloodstream (posterior pituitary) and within the
brain
– oxytocin--milk ejection, uterine contractions, maternal behavior, sex behavior, stress,
grooming, and development of social bonds (sheep)
– vasopressin--water balance, aggressive behavior, scent marking, stress, grooming
Social Attachment-VolesDoes oxytocin or vasopressin play a role in pair bonding?
Answer? Yes
• Female Prairie Vole
– females that are paired with a male but they do not engage in mating show low levels
of partner preference
– administration of oxytocin, but not vasopressin, within the cerebrospinal fluid (CSF)
of a paired but unmated female significantly increased her preference to spend time
with her partner
– females that are paired with a male and that also engage in mating show high levels of
partner preference
– administration of a receptor antagonist for oxytocin, but not for vasopressin, decreases
partner preference
– oxytocin released with mating is both necessary and sufficient for the formation of a
pair bond in the female prairie voles
Social Attachment-VolesDoes oxytocin or vasopressin play a role in pair bonding?
Answer? Yes
• Male Prairie Vole
– when males are exposed to females, but are not permitted to mate, they show neither
partner preference (nor the selective aggression)
– administration of vasopressin, but not oxytocin, within the cerebrospinal fluid (CSF)
of a paired but unmated male significantly increased her preference to spend time with
her partner (this included an increase in selective aggression)
– males that are paired with a female and that also engage in mating show high levels of
partner preference (and selective aggression)
– administration of a receptor antagonist for vasopressin, but not for oxytocin, decreases
partner preference
– vasopressin released during mating is both necessary and sufficient for formation of a
partner preference in male prairie voles
Social Attachment-Humans• The role of hormones in the process of social attachment in humans is less clear.
• There is clear evidence that hormone levels change in men and women during sex,
and in women during child birth (parturition).
– in men, levels of oxytocin and vasopressin increase within the cerebrospinal fluid during
ejaculation
– in women, levels of oxytocin increase within the cerebrospinal fluid (CSF) during
parturition; of interest, oxytocin levels within the CSF increase during normal labor
(include VCS), but not following delivery by Caesarean section (does not include VCS)
• Vasopressin and oxytocin receptors do exist within the brains of men and women
(postmortem studies).
• Do changes in hormone levels in humans reflect the development of “social bonds”
between men and women, or between a woman and her newborn infant?
– we don’t currently know
– current studies do not point to a strong relationship in humans
Social Attachment-Humans
• Does social stress alter oxytocin levels or responses to oxytocin?
• What is the general relationship between stress and oxytocin?
• What hormonal changes occur in abused women? Are abused women chronically
stressed?
oxytocin
affiliative processes(social attachment)
Could alterations inoxytocin levels be apossible mechanism
to explain why “abusedwomen” stay in
abusive relationships?
Social Attachment-HumansStudy: Winslow & Insel (1991)
• Background:
– dominant (DOM) and subordinate (SUB) male squirrel monkeys show profound differences
in testosterone levels and these differences correlate with different patterns of social,
aggressive and nonsocial behaviors
– What effect would the administration of oxytocin have on the behavior of DOM and SUB
males?
• Design:
– housed 2 male squirrel monkeys together--one male will become DOM while the other
males becomes SUB
– pairs of males werethen allowed to interact with a female repeatedly; they analyzed the
effects of oxytocin administration on (within CSF) on various behaviors among the group
(males plus female): 1) aggression, 2) sex behavior, 3) association behavior--affiliative
behavior including approach, touch, huddle with partner, and 4) other responses such as
grooming
Social Attachment-HumansStudy: Winslow & Insel (1991)
• Results:
– Reconfirmed finding that differences exist in testosterone levels between DOM and SUB
males--DOM males have more testosterone than SUB males
– DOM males: administration of oxytocin increased sexual and aggressive behavior
– SUB males: administration of oxytocin increased associative behaviors (social affiliation)
• Conclusion:
– the effects of oxytocin on the behavior of male squirrel monkeys depends on their social
status; administration of oxytocin in SUB males increased their affiliative responses
• Possible Interpretations:
– different levels of testosterone in DOM and SUB males may explain different responses to
oxytocin--testosterone has been shown to increase oxytocin binding within the brain; lower
levels of testosterone may reduce the number of oxytocin receptors and lead to differences
in the response to oxytocin
Social Attachment-HumansStudy: Winslow & Insel (1991)
• Possible Interpretations:
– even though levels of testosterone differed between DOM and SUB males, it could be that
“subordinate status” is the most critical variable and that prior experiences with “losing”
influences how the SUB animas responds to administration of oxytocin
Is abuse in women also associated with altered responses to oxytocin?--I don’t know!
• Some Interesting Comparisons:
– increases in oxytocin within the brain stimulates maternal behavior and social bonding in
some species (sheep)
– stress can also stimulate oxytocin levels within the brain (oxytocin has been implicated in
both increasing and decreasing responses to stress)
– stress can inhibit production of gonadal steroids
– gonadal steroids can affect various levels of hormones and neurotransmitters within the
brain--including oxytocin
Social Attachment-Humans• It is likely that the formation of “social bonds” and the display of parental behavior in
humans is not coupled in any simple way to changes in levels of hormones.
– Ex. Women (and men) can adopt babies and display perfectly normal maternal responses
without ever experiencing pregnancy or parturition--so pregnancy associated changes in
gonadal steroids and the process of giving birth (vaginocervical stimulation) are not critical
for stimulating maternal behavior nor for developing social bonds.
– This does not preclude the possibility that exposure to an infant can secondarily alter
hormones levels within the brain that lead to changes in parental responses...
• An uncoupling of the “activational” effects of hormones on human behavior has also
been reported for sex behavior and aggression.
• Current thesis: Hormones can alter human behavior, however, their effects are more
subtle than those observed in lower mammals and as a consequence, they are harder
to find and harder to study. Second, the effects of hormones are limited by other
processes--e.g., conscious choice.