Download How do neurotransmitters affect the brain: Dopamine

HOW DO NEUROTRANSMITTERS
AFFECT THE BRAIN: DOPAMINE
Buşra Yağmur
OUTLINE
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Neurotransmitters
What is Dopamine
Where is Dopamine formed
How does Dopamine work
What are the functions of Dopamine
Dopamine related disease
Dopamine and addiction
Conclusion
References
WHAT ARE NEUROTRANSMITTER
The brain chemicals that communicate
information throughout our brain and body
 The brain uses neurotransmitters to tell your
heart to beat, your lungs to breathe, and your
stomach to digest
 They can also affect mood, sleep, concentration,
weight, and can cause adverse symptoms when
they are out of balance
 Serotonin, GABA, Dopamine, Norepinephrine,
Epinephrine
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DOPAMINE
A monoamine neurotransmitter that upon
binding to a dopamine receptor (G-protein
coupled) releases a variety of downstream
signals.
 A special neurotransmitter because it is
considered to be both excitatory and inhibitory.
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WHERE IS DOPAMINE FORMED
 Dopamine is mainly synthesized in areas of
the central and peripheral nervous systems, such
as in the hypothalamus, the arcuate nucleus, and
the caudad
HOW DOES DOPAMINE WORK
Dopamine is released into synaptic cleft.
 Dopamine binds with receptor.
 Once done, dopamine is taken back into the cell,
so not too much is present in the cleft.
 The control mechanism is found in the endorphin
 Endorphin can either enhance of inhibit the
action of dopamine.
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WHAT ARE THE FUNCTIONS OF DOPAMINE
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Dopamine plays a significant role in the
cardiovascular, renal, hormonal, and central
nervous systems. It is thought to control
processes as diverse as movement to drug
addiction.
Dopamine dendrites extend into various regions
of the brain, controlling different functions
through the stimulation of α and β adrenergic
and dopaminergic receptors
Dopamine in movement: A part of the brain
called the basal ganglia regulates movement.
 Dopamine in pleasure reward seeking
behavior: Dopamine is the chemical that
mediates pleasure in the brain.
 Dopamine in memory: Levels of dopamine in
the brain, especially the prefrontal cortex, help in
improved working memory.
 Dopamine in attention: Dopamine helps in
focus and attention. Vision helps a dopamine
response in the brain and this in turn helps one
to focus and direct their attention
 Dopamine in cognition: Dopamine in the
frontal lobes of the brain controls the flow of
information from other areas of the brain
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DOPAMINE RELATED DISEASE
Dopamine deficiency in the striatum or
substantia nigra results in Parkinson’s-like
symptoms. In this case, movement becomes slow
and rigid, accompanied by muscle tremor.
 An excessive amount of dopamine is affiliated
with schizophrenia, characterized by altered
behavior, and delusions.
 A deficiency of dopamine (DA) is a leading
candidate for the etiology of certain symptoms of
depression
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May have a role in obesity
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May play a role in drug addiction
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May have a role in alcoholism
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May use dopamine derivatives to treat disease
DOPAMINE AND ADDICTION
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Cocaine and amphetamines inhibit the re-uptake
of dopamine.
Cocaine is a dopamine transporter blocker that
competitively inhibits dopamine uptake to increase
the presence of dopamine.
Amphetamine increases the concentration
of dopamine in the synaptic gap, but by a different
mechanism.
Amphetamines are similar in structure to dopamine,
and so can enter the presynaptic neuron via its
dopamine transporters.
By entering, amphetamines force dopamine molecules
out of their storage vesicles.
By increasing presence of dopamine both these lead to
increased pleasurable feelings and addiction.
CONCLUSION
Dopamine is a neurotransmitter released by
the brain that plays a number of roles in humans
and other animals. Some of its notable functions
are in: Movement, memory, pleasurable reward,
behavior and cognition, attention, inhibition of
prolactin production, sleep, mood, learning
 Excess and deficiency of this vital chemical is the
cause of several disease conditions. Parkinson's
disease and drug addiction are some of the
examples of problems associated with abnormal
dopamine levels.
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REFERENCE
Fellous, J. and Suri, R.E. (2002). The roles of
dopamine. The Handbook of Brain Theory and
Neural Networks, 2. Cambridge, MA: The MIT
Press,
 https://www.neurogistics.com/TheScience/Whatar
eNeurotransmi09CE.asp
 http://www.news-medical.net/health/DopamineFunctions.aspx
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