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Title: Understanding the brain and behavior


1
Understanding the brain and behavior
  • The Neurobiology of Social Recognition, Approach,
    and Avoidance
  • Larry J. Young

2
Introduction
  • Understanding how the brain processes social
    information and regulates social behavior helps
    us understand psychiatric disorders specifically
    affecting social behavior.
  • Animal models provide an opportunity for
    experimental manipulations that are not possible
    in human patients.

3
  • Several rodent model systems that have proven
    particularly useful for understanding how the
    brain processes social information and regulates
    social behavior.
  • Not necessarily models of any specific human
    condition
  • Instead contribute to our understanding of the
    social brain.

4
Gene knock-out mouse From IDENTIGENE Mouse
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5
  • The first model, the oxytocin knockout mouse,
    demonstrates the role of the neuropeptide
    oxytocin and the amygdala in the differential
    processing of social verses nonsocial information
    in the context of social recognition.

6
Social Recognition and the Neural Processing of
Social Stimuli
  • Several studies suggest that the brain has
    specific neural circuits involved in processing
    social information rather than nonsocial stimuli.
  • Human brain imaging studies have demonstrated
    that the brain processes social visual stimuli
    differently from nonsocial stimuli.
  • For example, the lateral fusiform gyrus is
    activated to a greater degree when subjects view
    faces than when viewing nonface objects

7
  • Social recognition in mice, unlike primates, is
    primarily based on olfactory cues.
  • During the first social encounter, a male mouse
    will investigate a novel mouse by sniffing the
    head and anogenital region for approximately 1
    min.

8
  • If the male encounters the same mouse again, it
    will investigate the stimulus mouse for only a
    few seconds and then quickly engage in different
    behaviors.

9
Neuropeptide oxytocin
  • Oxytocin is a neuropeptide
  • Oxytocin induces maternal behavior, uterine
    contraction and lactation
  • Young et al. used mice genetically engineered to
    lack a functional oxytocin (OT) gene to
    investigate the role of OT in social behavior

10
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11
  • OT knockout mouse fail to habituate to, or
    recognize, a stimulus mouse even after repeated
    exposures
  • This deficit in social memory is not due to
    problems with general olfactory processing
    because these mice habituate normally to
    nonsocial scents, such as a cotton ball scented
    with lemon extract

12
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13
  • OT knockout mice appear to have normal general
    learning and memory abilities because they
    perform as well as normal mice in the Morris
    water maze, which quantifies performance on a
    spatial learning task.
  • The specific deficit in social recognition
    suggests that although general cognitive
    abilities and olfactory processing are intact,
    the processing of social stimuli is abnormal.

14
  • Social recognition in the OT knockout mouse can
    be fully restored by a single infusion of 1.0 ng
    OT into the brain just minutes before the initial
    social encounter.
  • Infusion of a specific OT antagonist into the
    brain of wildtype mice prevents the expression of
    a social memory.

15
  • Injection of the OT after the initial exposure
    fails to restore social recognition,
    demonstrating the OT must be present during the
    initial processing of the social information,
    rather than for the retrieval of that information
    during subsequent exposures

16
  • What part of the brain controls social
    recognition using OT?
  • Use Fos staining to see which brain neurons are
    activated

17
Experiment
  • Normal and OT knockout mice were either
  • left alone in their cages, or
  • presented with a social stimulus animal for 90
    sec.

18
Fos staining indicates neuron activation
  • Wildtype mice amygdala activated
  • OT knockout amygdala not activated

19
  • The medial amygdala receives olfactory input
    directly from the olfactory bulbs and is rich in
    OT.
  • Suggest that the amygdala differentially
    processes social and nonsocial information,
  • Differential processing is dependent on the
    presence of OT.

20
  • Brain imaging studies with high-functioning
    autistic patients also suggest that the amygdala
    is involved in processing social information.
  • Functional magnetic resonance imaging (fMRI) was
    performed on healthy and autistic subjects to
    examine brain activity during the processing of
    facial expressions
  • Autistic subjects failed to display an activation
    of the left amygdala during this task, whereas
    the healthy subjects had significant activation
    of this region.

21
Neuropeptides in social interest and attachment
22
Montane vole Elizabeth Hadly Stanford University
23
  • Once the brain gathers and processes social
    information, it must decide how to react to the
    situation.
  • In other words, should the individual engage in
    social interactions, such as grooming, or attack
    or flee?
  • What is it about interacting with other
    individuals in a social context that is rewarding
    to most individuals?

24
  • A rodent about the size of a golden hamster known
    as a vole has provided an excellent system for
    understanding affiliative behavior as well as
    social attachment
  • There are several species of voles that inhabit
    various regions of North America, and these
    species display a range of social behaviors.

25
  • Prairie voles (Microtus ochrogaster), found
    naturally in the Midwestern United States, are
    highly social, form long-lasting social
    attachments with their mates, and are monogamous

26
  • Like humans, prairie voles seek social contact.
    In nature, these rodents live in colonial nests
    consisting of a mating pair and several
    generations of offspring.
  • Prairie voles prefer to spend much of their time
    in physical contact with another prairie vole,
    typically in a side-by-side posture referred to
    as huddling.
  • In large, naturalistic enclosures, prairie voles
    spend more than 50 of their time interacting or
    huddling with another prairie vole

27
  • In contrast to prairie voles, montane voles (M.
    montanus), which inhabit the Rocky Mountain
    region, appear to avoid social contact except for
    the purpose of mating. Montane voles do not form
    social attachments between mates.
  • Female montane voles rear their young in isolated
    nests and abandon their offspring after 2 to 3
    weeks

28
  • In a similar naturalistic enclosure as described
    above, montane voles spent only around 5 of the
    time socially interacting with other montane voles

29
  • Because prairie and montane voles are genetically
    very similar, yet so different socially, together
    they provide an excellent comparative model
    system for examining the brain mechanisms
    involved in promoting social contact.

30
  • Do oxytocin (OT) and arginine vasopressin (AVP)
    explain the differences in social behavior of
    voles?

31
  • Vasopressin and OT are 9amino acid peptides with
    a ring structure connected by a disulfide bond.
  • The peptides differ only at two amino acid
    residues and the OT and AVP genes are located
    adjacent to each other on the same chromosome
  • Both peptides are synthesized in neurons in the
    hypothalamus that project to the posterior
    pituitary and are released into the peripheral
    blood supply where they regulate functions such
    as blood pressure, urine concentration, uterine
    contraction, and lactation

32
  • These neuropeptides are also synthesized in
    separate hypothalamic and extrahypothalamic
    neurons that release the peptides independently
    within the brain to modulate a number of social
    behaviors

33
OT and AVP effects on social interaction
  • OT or AVP infusions increase the amount of time
    that a vole spends in olfactory investigation and
    huddling in a side-by-side posture with another
    animal

34
OT and AVP effects on pair bonding
  • The prairie vole, which is monogamous, forms a
    permanent pair bond after mating.
  • In the laboratory, pair bond formation is
    assessed in a three chambered testing arena by
    quantifying the amount of time the experimental
    animals spends during a 3-hour test with either
    the mate (confined to one chamber) or with a
    novel animal (confined in separate chamber).

35
  • Intracerebroventricular infusions of an OT
    antagonist into a female prairie vole before
    mating prevents the formation of a partner
    preference (Insel and Hulihan 1995), whereas OT
    injections facilitate partner preference
    formation, even in the absence of mating
  • Similar results have been obtained using AVP
    antagonists and agonists in male prairie voles

36
  • Both OT and AVP are present in all mammalian
    species, and prairie and montane voles appear to
    have similar levels of these peptides
  • So what explains the differences in affiliative
    behavior in these species?

37
  • The answer appears to lie within the regional
    expression of the receptors for these peptides
    within the brain.
  • Receptor autoradiography studies show that
    prairie and montane voles have dramatically
    different distributions of OT and AVP receptors
    within the brain

38
  • prairie voles have higher levels of OT receptor
    in the nucleus accumbens (the s brainpleasure
    center) and the basolateral amygdala relative to
    montane voles
  • prairie voles have higher densities of the V1a
    subtype of the AVP receptor in the ventral
    pallidum and the medial amygdala compared with
    montane voles,

39
  • Differential localization of receptors in brain
    might lead to the activation of different
    circuits upon peptide release and ultimately to
    different behavioral responses.

40
Experiment
  • Male prairie and montane voles were given either
  • 1.0 ng of AVP in artificial cerebrospinal fluid
  • artificial cerebrospinal fluid alone (control)
  • Behavioral response affiliation test

41
Prairie voles
  • Prairie voles injected with AVP exhibited
    significantly higher levels of social
    interactions than control prairie voles injected
    with artificial cerebrospinal fluid

42
Montane voles
  • In contrast, the injection of AVP had no impact
    on social interactions in montane voles.
  • Instead montane voles respond to AVP injections
    by exhibiting increased levels of nonsocial
    behaviors such as autogrooming

43
Do other species show the same effects of
vasopressin?
  • Young et al. created transgenic mice carrying the
    prairie vole vasopressin receptor
  • Test if there is a direct relationship between
    the behavioral response to AVP and the specific
    pattern of V1a vasopressin receptors (V1aR)

44
  • The transgene contained the regulatory sequences
    that direct the expression of the gene in a
    tissue-specific manner.

45
  • Mice transgenic for the prairie vole V1aR gene
    expressed the V1aR in a pattern that was similar
    (but not identical) to that of prairie voles, but
    markedly different from that of nontransgenic
    mice

46
  • The transgenic mice, which share some of the
    regional distribution of AVP receptors with the
    prairie vole, responded to the AVP treatment by
    displaying increased affiliative behavior (Figure
    3, next slide).
  • Nontransgenic littermates showed no increase in
    affiliative behavior after AVP injection.

47
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48
  • The transgenic mice did not respond to
    vasopressin in exactly the same way as prairie
    voles.
  • Mice not display elevated V1aR binding, compared
    with nontransgenic mice, in some of the areas
    that may be critical specific aspects of social
    behavior, such as the amygdala and ventral
    pallidum.
  • These mice also did not display partner
    preferences as prairie voles do.

49
  • This is the first study to demonstrate that the
    regional distribution and density of a
    neurotransmitter or neuropeptide receptor is
    directly associated with the social behavior
    displayed by an individual.

50
  • How do the the differential distribution of OT
    and AVP receptors in prairie and montane vole
    brains promote social interactions?

51
  • Prairie voles have a high density of OT receptors
    in the nucleus accumbens, whereas montane voles
    have few receptors in this region
  • Vasopressin receptors are concentrated in the
    ventral pallidum of the prairie vole but not of
    the montane vole.

52
  • Both the nucleus accumbens and the ventral
    pallidum are components of the mesolimbic
    dopamine reward system
  • Both regions receive dopamine projections from
    the ventral tegmental area and are thought to
    mediate the rewarding, or reinforcing, effects of
    both natural stimuli and drugs of abuse.

53
  • Infusions of psychostimulants into these regions
    of rats produce a conditioned place preference
    for the environment in which they received the
    injections
  • Depletion of dopaminergic projections to these
    regions prevents cocaine self-administration
    behavior in rodents

54
  • The high density of OT and AVP receptors in the
    dopamine reward systems of prairie voles, and the
    virtual lack thereof in montane voles, suggests
    that activation of these regions during social
    interactions is reinforcing for prairie voles,
    thus promoting social contact.

55
  • Young et al. tested this hypothesis using viral
    vector gene transfer to increase V1aR expression
    specifically in the ventral pallidum of male
    prairie voles.

56
  • Adeno-associated viral (AAV) vectors are an
    efficient means by which gene expression can be
    manipulated in the adult animal.
  • AAV typically infects cells and inserts its own
    DNA into the host cells genome.
  • By deleting the AAV genes and replacing them with
    a gene of interest, it is possible to place any
    gene into the genome of the neurons surrounding
    the injection site

57
  • Young et al. constructed AAV vectors by placing
    the prairie vole V1aR gene sequence downstream of
    a neuron-specific enolase promoter, which directs
    expression in all neurons.
  • By injecting small amounts of the virus into the
    ventral pallidum, they were able to selectively
    increase the level of expression of the V1aR in
    this region
  • These AAV infusions result in an approximately
    100 increase in V1aR expression, which persists
    for at least 4 months.

58
  • Male prairie voles that had artificially elevated
    V1aR in the ventral pallidum displayed elevated
    levels of social interactions with novel stimulus
    animals, as measured by olfactory investigation
    and huddling, compared with animals injected with
    the same virus in a control region, the caudate
    putamen

59
  • Male prairie voles with increased V1aR expression
    in the ventral pallidum, but not in the caudate
    putamen, developed a partner preference after
    cohabitating overnight, without mating, with a
    female
  • Thus V1aR activation in the ventral pallidum both
    increases social contact and facilitates social
    attachment.

60
  • A separate study demonstrated that OT receptor
    activation in the nucleus accumbens is necessary
    for the formation of social attachments in female
    prairie voles.
  • Infusions of a selective OT receptor antagonist
    into the nucleus accumbens prevented the
    formation of a partner preference after mating,
    but similar infusions into the caudate putamen
    had no effect

61
  • agonist increases activity of target receptor
  • antagonist lowers activity of target receptor

62
  • Infusion of the dopamine D2 agonist quipirole
    into the nucleus accumbens of the female prairie
    vole
  • facilitated partner preference formation, even in
    absence of mating
  • Infusions of the D2 antagonist eticlopride
  • prevented partner preference formation after
    mating

63
  • Although there is no direct evidence of a
    dopamine peptide interaction, these studies are
    consistent with the hypothesis that, in social
    species, OT and AVP may enhance the hedonic value
    of social interactions by activating the neural
    circuitry involved in reward and reinforcement.

64
  • These studies suggest the possibility that
    individual differences in neuropeptide receptor
    expression in the dopamine reward circuitry could
    underlie individual differences in personality
    traits in humans

65
  • There is some evidence to suggest that individual
    differences in dopamine systems are associated
    with social anxiety
  • Tiihonen reported that striatal dopamine reuptake
    site densities were markedly lower in patients
    with social phobia compared with age-and
    gendermatched comparison subjects.

66
  • A more recent brain imaging study used SPECT to
    examine the dopamine D2 receptor binding
    potential in the striatum of 10 subjects with
    generalized social phobia and 10 healthy
    comparison subjects (Schneier et al 2000).
  • This study reported significantly lower D2
    receptor binding potentials in subjects with
    generalized social phobia compared with healthy
    control subjects.

67
  • What causes the species differences in OT and AVP
    receptor expression?
  • Young et al. investigated the molecular mechanisms

68
  • The tissue-specific expression of a gene is
    determined by interactions of transcription
    factors with specific DNA sequences surrounding
    the gene, particularly in the 5-prime flanking
    region of the gene.

69
  • The region of the V1aR gene that encodes the
    protein is 99 identical between the prairie and
    montane vole
  • However, in the 5-prime flanking region of the
    prairie vole gene, there is a 428 nucleotide
    expansion of a highly repetitive sequence located
    just over 700 bp upstream of the transcription
    start site

70
  • A similar sequence is also found in the same
    region of the V1aR of another highly social and
    monogamous species of vole, the alpine vole (M.
    pinetorum) however, the less social meadow vole
    (M. pennsylvanicus) V1aR gene does not contain
    this sequence.
  • Highly repetitive DNA sequences are unstable and
    subject to rapid mutation.

71
  • The human V1aR gene also has a highly repetitive
    sequence in the promoter that is quite variable
    among individuals (Thibonnier et al 2000).
  • These studies suggest that individual differences
    in regulatory DNA sequence upstream of a gene may
    have a dramatic influence on both the pattern of
    receptor expression in the brain and in the
    social behavior of the organism.
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