Schizophrenia Lecture Notes PDF

Summary

These lecture notes cover the topic of schizophrenia, exploring its various aspects, including its biochemistry and treatments. The document delves into the role of neurotransmitters, such as dopamine, in the condition and discusses different treatment strategies. The notes are likely meant for an undergraduate-level course in a field related to mental health or neuroscience.

Full Transcript

Human brain nutrition facts…
Hungry??????
DHA, an important omega-3
fatty acid, is found concentrated
in HUMAN brains

The makeup of the brain is about
29% fat and 20% protein

Good source of vitamin C
and iron
 Confusion Inside disrupted

Trapped by it all

The voice inside
Paranoid Paranoid with visual Shadowy menace Auditory
hallucinations hallucinations

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Schizophrenia
National Institute of Health (NIH) considers Schizophrenia as a
chronic and severe mental disorder that affects how a person
thinks, feels, and behaves
- people can be withdrawn, completely preoccupied with own
thoughts and delusions

Typically occurs in early 20’s
- disrupts most productive years
- 30% of people with this disorder are institutionalized at
some point (may re-occur) At Rest
- better therapies have helped

MRI demonstrates smaller brain with larger ventricles
- more empty space

Prefrontal cortex function depressed = “hypofrontality”
- issues with executive function, response
inhibition, problem solving…
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Answer E

– excessive adolescent exercise

All of the other factors have studies linking to increased incidence
of schizophrenia (adolescence cannabis, urban birth, prenatal
malnutrition, c-sections, children of dry cleaners).

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Schizophrenia
Genetic and environmental factors play a role
1 = no risk
- if parent with disease, 10% chance for
child to develop the disease
(may increase susceptibility)

- environment linked but not worked out
- born late winter/early spring
- infections
- vitamin D deficiency
- pollution (urban birth)
- prenatal malnutrition
- smoking
- C-sections

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Schizophrenia
Symptoms can be divided into 3 categories:

1. Positive symptoms: hallucinations, delusions, irrational thinking, disorganized speech

2. Negative symptoms: blunted affect, social withdrawal, speech/communication impairment, loss of
normal pleasures

3. Cognitive impairment: poor attention, learning and memory issues, difficulty with abstract thinking
and problem solving

(other affective and aggressive symptoms also manifest)

- no two people are alike in their symptoms: hard to diagnose
- symptoms can increase/decrease over time

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Range of Symptoms and Sites Associated with Schizophrenia

Except for positive symptoms (mesolimbic), most symptoms are cortical associated (mesocortical)
- emotions can be absent or inappropriate
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Biochemistry of Schizophrenia
Dysfunction of dopamine, serotonin (5-HT), glutamate, nicotinic acetylcholine (nACh), and other
neurotransmitters

Role of dopamine really demonstrated by early pharmacology
- amphetamine Augmenting dopamine induces positive symptoms of schizophrenia, including
- levodopa hallucinations (amphetamine, cocaine “psychosis”)

- chloropromazine
- non-selective dopamine antagonist (“dirty drug” also effects
5-HT, NA, H1, mACh) Strong side effects (motor,
drowsy, insomnia, dry mouth,
- reduced positive symptoms anxiety…)

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Dopamine and Schizophrenia

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Dopamine and Schizophrenia: Imbalance Theory
Dopamine dysfunction goes in 2 directions depending on symptom and
pathway
- hyperfunction (positive symptoms)
- hypofunction (negative symptoms)

Positive symptoms related to mesolimbic dopamine hyperfunction
- high levels of dopamine release in NAc
- high numbers of postsynaptic D2 (inhibitory) receptors
in NAc
- D2 on a variety of neurons in NAc (ACh, GABA, Glutamate)

- relates to “psychotic” episodes

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Dopamine and Schizophrenia: Imbalance Theory
Dopamine dysfunction goes in 2 directions depending on symptom
and pathway
- hyperfunction (positive symptoms)
- hypofunction (negative symptoms)

Negative and cognitive symptoms related to mesocortical dopamine
hypofunction
- low levels of dopamine release in PFC
- reduced postsynaptic D1 (excitatory) receptor activation in
PFC

- low activity in this region may also contribute to the
increased activity within the mesolimbic pathway
(PFC is a negative control on NAc)

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Glutamate and Schizophrenia
Role of glutamate also demonstrated by early pharmacology
- ketamine NMDA antagonists induce negative and positive symptoms
in healthy people, make symptoms worse in schizophrenic
- phenylcyclidine (PCP: aka, Angel Dust) patients

Hyperactivation in mesolimbic dopamine system (positive
symptoms) due to less glutamate/NMDA activity on inhibitory
GABAergic neurons in VTA
- less activation of “the brake” on dopamine X
X VTA

Hypoactivation in mesocortical dopamine system (negative symptoms) due to low local glutamate/NMDA
activity
- less glutamate-induced excitation in prefrontal cortex

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Biochemistry of Schizophrenia: Serotonin
Serotonin modulates both dopamine and glutamate
- receptor subtype dependent
- mainly regulation of negative symptoms
- dorsal raphe (to PFC) is primary origin of 5-HT input

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Biochemistry of Schizophrenia: Serotonin
Serotonin
- overactivity of 5-HT may contribute to hypofrontality
through activation of 5-HT2A (excitatory) receptors
- activates GABA interneurons
- consequence: reduces dopamine release in PFC
- also may reduce glutamate
- LSD activates this receptor

- 5-HT1A (inhibitory) is a receptor activated by different
anti-psychotic medications
- these meds increase dopamine release in PFC
- 5-HT1a is an autoreceptor inhibiting 5-HT release
(prevents 5-HT overactivity: see above)
- unclear if 5-HT1a has a role in disease
pathophysiology

- activation of 5-HT7 (excitatory) receptors decreases
glutamate release in PFC
Need a 5-HT7 antagonist
- via activation of GABA
to help improve - thus, activation decreases PFC excitability
hypofrontality
( = hypofrontality) 15
 Biochemistry of Schizophrenia: Acetylcholine

nACh (nicotinic acetylcholine receptors)
- α7 nACh receptors found in areas involved with
cognition (e.g., prefrontal cortex and hippocampus)
- reduced in schizophrenic patients
- α7 agonists improve focus and memory

- a very high proportion (~ 75%) of schizophrenic
individuals smoke cigarettes
- 50% are heavy smokers
- self medication (claim it helps with
negative symptoms)
- often have a nicotine dependence
- morbidity associated with smoking related
health issues

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17 B
“Ya, I know that” Quiz...

A drug that works on which mechanism will induce symptoms similar to
the positive symptoms of schizophrenia?

Answer C: DA reuptake inhibitor

Positive symptoms related to mesolimbic dopamine hyperfunction

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 Classical treatments of schizophrenia

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 Treatments for Schizophrenia
1st generation (anti-psychotics or neuroleptics)

- Dopamine D2 antagonists (“D2 receptor family”)
- post-synaptic D2 receptors (this family can also be presynaptic, but not the focus here)
- these are effective vs. positive symptoms

- Chlorpromazine and subsequent related “Neuroleptic” drugs
- e.g., haloperidol, thorazine

- 30% of patients do not respond to D2 receptor antagonists

-Tardive dyskinesia and other side effects
Hypothesis: Prolonged block of D2 receptors leads to DA
receptor supersensitivity in Nigrostriatal pathway

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 Treatments for Schizophrenia
3rd generation (also atypical antipsychotics)
- D2 partial agonists
- aripiprazole, cariprazine
Reduces hyperactivity
1. With high levels of mesolimbic DA, it can act as an antagonist to compete with dopamine for the receptor
- not a total block, sometimes DA will win out in the competition, but it diminishes it effects

Counters the hypoactivity
2. With low levels of mesocortical DA, it can act as an agonist to partially activate the receptors

Dopamine stabilizer

Other recent trends
- combination drugs
- low doses D2 antagonist (decrease DA in mesolimbic) with NMDA agonists (increase activity in PFC)
- muscarinic Ach receptor agonists

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 Treatments for Schizophrenia
3rd generation (also atypical antipsychotics)
- D2 partial agonists
- also may be partial agonists at 5-HT1A, and antagonists at 5-HT2A
- aripiprazole, cariprazine
Reduces hyperactivity
1. With high levels of mesolimbic DA, it can act as an antagonist to compete with dopamine for the receptor
- not a total block, sometimes DA will win out in the competition, but it diminishes it effects

Counters the hypoactivity
2. With low levels of mesocortical DA, it can act as an agonist to partially activate the receptors
+ modulates 5-HT activity

Dopamine stabilizer
Other recent trends
- combination drugs
- low doses D2 antagonist (decrease DA in mesolimbic) with NMDA agonists (increase activity in PFC)
- muscarinic ACh receptor agonists

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 Take Home…
Schizophrenia is a neurological disease that is heterogeneous in its manifestation across patients
- symptoms (and degree of) can be individualistic
- cause remains unknown

First drugs focused on positive symptoms, and the next waves added in side effect control and
action on negative symptoms (including cognitive)
- dopamine remains at the center of symptom control

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 Pharmacokinetics
Pharmacokinetics: from Greek
- pharmakon (drug) and kinetikos (movement)

- how the drug is:
- absorbed
- biodistributed “ADME” properties
- metabolized
- excreted

HOW THE BODY EFFECTS YOUR DRUG

(Pharmacodynamics - how the drug effects your body)

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 Biodistribution
First-pass metabolism

- metabolism of oral drug before enters systemic
circulation

- mouth → GI → portal vein → liver

- amount leaving liver into circulation varies by drug
- enzymatic degradation of drug in liver and GI tract

- cytochrome (CYP) P-450 enzymes (>50 enzymes) are
the most common drug metabolizers (e.g., Xanax,
haloperidol, hydrocodone…)

- grapefruit juice can inhibit these enzymes

- low levels of drug leaving liver = low bioavailability

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 Biodistribution
Factors that affect distribution of drug, including into tissue:

- protein binding
- many circulating proteins in the blood that can non-
selectively bind different drugs (making them inert)
(proteins = albumin (major), α1 acid glycoprotein, lipoprotein, globulin)

- if bound, drug tends to stay in blood (does not goes
to desired tissue/target)

- the amount of “free” unbound drug is important to
efficacy (the more free the better)
- can determine clinical response
- varies between people

- level of protein binding varies across drugs
- bad if a drug is bound too much

- many drugs are greater than 99% bound
(= 1% free)

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 Biodistribution
Some (not all) factors that affect distribution of drug, including into tissue:

- lipophilicity
- ease at which it can move across lipid membranes (GI tract)
- if lipid soluble, can move across membranes with passive diffusion

-blood flow in desired tissue
- brain has good blood flow
- poor circulation can affect drug distribution

- molecular size
- larger molecules may have more difficulty getting across barriers

- movement across barriers
- BBB
- placental

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 Biodistribution: Blood Brain Barrier
Blood-Brain Barrier (BBB)
Blood supplies the brain with oxygen, glucose, and amino acids. It
carries away CO2 and waste products

Blood-Brain Barrier (BBB)
- blood–brain barrier protects against circulating toxins
or pathogens that may cause brain infections, while
permitting entry of vital nutrients

- specialized capillary: microvessel lining (endothelium, Brain/spinal cord signaling needs a highly
negatively charged) surrounded by astrocytes and controlled/protected microenvironment
pericytes (cells that wrap the endothelium) is a major site
for blood–CNS exchange of molecules BBB is a physical barrier
- larger sized molecules (antibody drugs) cannot pass
- specialized transporters to bring across molecules - has enzymes that degrade molecules (e.g., acetylcholinesterase)
- repels negatively charged (anions) molecules (though there are
that would not normally pass and the brain needs some ion transporters)
(glucose) - selective transporters (e.g., glucose)
- transporters go in both directions - lipid soluble drugs can pass

- ∼100% of large-molecule & more than 98% of all small-
molecule drugs cannot cross the BBB
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 Metabolism
Metabolized
- the “parent” drug is broken down in the
body before being excreted
- often by liver enzymes, but other
processes as well

- metabolites can be formed
- both inactive and active
metabolites

- active metabolites can have an action of
their own

- active metabolites can have similar
(contribute to therapeutic effect) or
different (side effect) effects than the
parent drug

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 Excretion
Excretion (or drug “clearance”)
- elimination of “parent” drug and it’s metabolites from the
body

- another factor that determines how frequently you have
take a drug (elimination rate of the drug)
- the faster elimination rate, the more you
need to take the drug

- most common route is via kidney/urine
- also feces, sweat, saliva, breast milk

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 Steady State
Steady state: period of time when the blood concentration Curves represent drug levels in blood
of a drug remains relatively constant (intake is balanced by
drug that remains in body, and elimination)

Need to reach steady state before determining “right”
efficacious dose for a patient
- what is the efficacy at a consistent level of drug

Next dose
Factors that contribute to steady state:
- frequency of dosing
- drug’s T1/2
- metabolism/elimination

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 Cariprazine (Vraylar)
Cariprazine, partial agonist of D2, D3, and antagonist of 5-HT2A, 5-HT2B (and more) for treatment of
schizophrenia and bipolar disorders

- high oral bioavailability
- crosses the blood brain barrier
- T1/2 of 2-4 days
- Active metabolite with T1/2 of 1-3 weeks

What are the implications of this PK profile?
- high drug levels get into blood circulation and into the brain (to get to target)
- take the drug less frequent (long T1/2)
- may take awhile to find the right dose
- can take longer to reach steady state with long T1/2
- need to measure both parent and metabolite to determine appropriate dosing (metabolite is
active)
- upon stopping drug may have residual left in blood for weeks
- may be an advantage with schizophrenia patients who can miss doses (less of an impact)
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“Ya, I know that” Quiz...

34 C
“Ya, I know that” Quiz...

Which is an incorrect association?

Answer D: first pass metabolism: protein binding

- Enzymatic breakdown in liver
(Protein binding in blood)

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 Take home…
Potency is not enough to make a drug work, its pharmacokinetic profile is integral to a drug’s
efficacy and degree of side effects

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Brain Awareness Week Lectures
Robert B. Glassman Memorial Brain, Mind, and Behavior Symposium
 To do…
Read text LO 4.5 (placebo section) and LO 17.7-17.12 (Affective
Disorders)

Treat a Neurological Disease

Monique + Janitza: TBD
Ryan + Anna: TBD

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