mental illness (schizophrenia) Flashcards
some characteristics of psychiatric illnesses like schizophrenia or autism (3)
- heritable (linked to genetics)
- common (4% frequency of severe mental disorders)
- harmful to reproductive success (decreases fertility rate)
schizophrenia is characterized by (4)
- social withdrawal
- disorganized thinking
- abnormal speech
- inability to understand reality (delusions of grandeur and persecution)
global prevalence of schizophrenia
1%
most common cause of schizophrenia
hundreds of relatively common gene variants that each individually confer small statistical increase in risk of developing schizophrenia (not single gene, not single brain region; more variant genes -> more risk)
mental disorders that have gene variant overlap with scz (5)
- BPD
- MDD
- autism
- OCD
- ADHD
are gene variants specific for one mental disorder and why
no; create vulnerability to mental illness in general because risks conferred aren’t specific to traditional diagnostic boundaries & considerable overlap of gene variants bw several mental illnesses; gene variants increase risk of developing mental illness, but are not causal
what is comorbidity
having more than 1 diagnosis at the same time
why do harmful gene variants persist in population when should be selected out (because of decreased reproductive success)
mutation-selection balance: susceptibility genes are continually selected out through evolution, but new mutations keep arising
what allows genetic variation to accumulate in population (even if mutations can disrupt brain function)
human genome evolved to buffer many insults; protects if individual mutations aren’t to severe
if a slightly bad mutation doesn’t cause disease, how can it increase probability of having a mental illness
it can collectively compromise evolved interactions of proteins within brain; reduces overall robustness of brain development and brain function; brain more vulnerable to other mutations and increased risk of developing mental illness
why is it difficult to study and treat neuropsychiatric disorders
limited understanding of circuit-level dysfunctions that underlie neuropsychiatric disorders
why are rare but penetrant genes getting more attention in fields of study
offer clear roadmap to identification of circuit-level disruptions; genetically well-defined
5% of scz (severe) cases are attributed to
rare gene copy number variations (duplicated or missing genes from chromosomal abnormalities)
why use mice models if their behavioral phenotypes don’t resemble human disorders
molecular, cellular and circuit phenotypes are likely to be informative
what chromosomal deletion in mice mimics 22Q11 deletion syndrome causing full-blow scz in human adults
chromosome 16 deletion
what is the authors’ hypothesis concerning what triggers scz
adverse bifurcation in late brain development in predisposed individuals
what interventions do the authors’ hypothesize could be prevent pathological process of developing scz
interventions aimed at promoting normal brain development during late adolescence
what is the mouse model for scz
LgDel+/- (missing 1 chromosome 16)
why is late adolescence more vulnerable for developing scz
unique transition when synchronized network activity is weaker than in adults and in early adolescence (dip in network activity)
which period of brain development is more susceptible to disruptions
late adolescence -> when coordinated activity is most important for brain maturation
which brain area is last to acquire adult-like features
PFC
important adult-like feature in PFC
coherent oscillatory activity of neuronal population in high-frequency gamma range
element specifically impaired in scz (2)
- gamma oscillations
- inhibitory interneurons that give rise to gamma oscillations
defining features of scz relate to
faulty PFC function
PFC-related scz features (2)
- deficits in working memory
- top-down control (impulse control and planning)
what is parvalbumin (PV)
calcium-binding protein highly expressed in certain populations of GABA interneurons
number of PV interneurons and PV expression in scz patients
PV interneurons present (normal number of PV interneurons), but decreased PV expression
underexpressed proteins in scz (2)
- PV
- GAD67
what is GAD67
enzyme that manufactures GABA from gluatamate
what do PV and GAD67 expression relate to
spiking activity of cell (dynamic expression)
relationship bw learning and PV & GAD67 (2)
learning associated with (1) changes in PV and GAD67 expression in PV interneurons and (2) changes in amount of excitatory input these cells receive
effect of decreased PV expression in scz patients compared to ‘wt’ on synchrony
calcium determines how fast neuron fires and how quickly it hyperpolarizes: more PV, neuron fires faster (good at buffering calcium)
scz -> PV interneurons don’t fire as fast (less PV) so synchrony is disrupted
elements looked at to test if LgDel+/- mouse is a good scz model of scz patients (4)
- is there reduced oscillatory activity in PFC?
- is there reduced PV expression in cortical PV interneurons?
- is there reduced excitatory input onto cortical PV interneurons?
- do they exhibit learning and memory deficits associated with scz?
what do tasks that depend on PFC and hippocampus function involve
contextual information or memory generalization
function of which brain areas are disrupted in scz mice models (2)
PFC and hippocampus
gamma oscillations correlate with
firing of inhibitory neurons
when are gamma oscillations more prominent
during alert, attentive wakefulness
how did the authors examine gamma oscillations in LgDeL+/- mice
- put metal wires in PFC
- electrical activity recorded was put through fast fourier transform
