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Stress in animals
• Mark Wilson, a neuroscientist at Yerkes National Primate Research Center of Georgia's Emory University, studies captive
female rhesus macaque monkeys, housed in groups as they would live in the wild
...

• "Subordinate females tend to show more anxiety behaviors — things like excessive body scratching, body shakes,
excessive yawning, self-grooming, pacing," Wilson said
...

• Overall, though, humans may win the "most neurotic animal" award
...
"Not to be specieistic here, but animals tend to live fairly stable lives
...
"

Examples of stress in animals
• To better understand how to combat the effects of stress in the body,
Wilson and his colleagues recently conducted an experiment with
female rats, in which they increased the amount of a neurohormone
called corticotropin releasing factor (CRF), thought to be a driving
factor of the body's response to stress, in the rats' brains
...


STRESS RESPONSE IN FISH

NEUROENDOCRINE AND PHYSIOLOGICAL
RESPONSES TO STRESS

PHYSIOLOGICAL RESPONSE TO STRESS
• Neurotransmitter response
• Endocrine response
• Immune response
A) NEUROTRANSMITTER RESPONSE TO STRESS
Stress activates
• Serotonergic system
• Noradrenergic system
• Dopaminergic system
• Amino acid and peptinergic neurotransmitter system

NEUROTRANSMITTERS RESPONSE TO STRESS
• Neurotransmitters send and receive messages between brain cells
...


• The three "happy" messengers are: Serotonin, Noradrenaline, and
Dopamine
...
Body clock coordinates your body
functions to the same rhythm
...

• Glucocorticoids themselves have myriad effects within the body, but their
actions can be summarized in the very short term as promoting energy use,
increasing cardiovascular activity (in the service of the flight-or-fight
response), and inhibiting functions such as growth, reproduction, and
immunity
...
It is
essential for life, and it regulates or supports a variety of important cardiovascular,
metabolic, immunologic, and homeostatic functions
...

• Blood sugar (glucose) levels
• Fat, protein and carbohydrate metabolism to maintain blood glucose
(gluconeogenesis)
• Immune responses
• Anti-inflammatory actions
• Blood pressure
• Heart and blood vessel tone and contraction
• Central nervous system activation

PHYSIOLOGICAL EFFECTS OF CATECHOLAMINES
Organ

Effect

Brain

Increased blood flow, increased glucose metabolism

Cardiovascular system

Increased rate and force of contractions, Peripheral vasoconstrictions
...


Liver

Increased glucose production, gluconeogenesis, glycogenolysis and decreased
glycogen synthesis
...


Skeleton

Decreased glucose uptake and utilization

GI and genitourinary tract Decreased protein synthesis
Lymphoid tissue

Increased protein breakdown

ADRENERGIC RECEPTORS
Receptor

Effectively Binds

Effect of Ligand Binding

Effect on organ

Alpha1

Epinephrine,
Norepinphrine

Increased free calcium

Cause smooth muscle to constrict
& increased glycogenolysis

Alpha2

Epinephrine,
Norepinphrine

Decreased cyclic AMP

Relaxation of smooth muscle

Beta1

Epinephrine,
Norepinphrine

Increased cyclic AMP

Increased heart rate, contractile
force and automaticity

Beta2

Epinephrine

Increased cyclic AMP

Bronchodilation and vasodilation

HYPOTHALAMIC-PITUITORY-THYROID AXIS
The hypothalamus begins the chain of command by producing a
hormone called thyroid releasing hormone (TRH) which stimulates
the pituitary to produce and release its hormone, thyroid
stimulating hormone (TSH)
...

While the entire hypothalamus-pituitary-thyroid axis is fairly
complex, TSH remains the most sensitive measure of overall thyroid
function
...

Hydrocortisone produced by adrenals is necessary for the
conversion of T4 to the active T3
Hypothyroidism
...


IMMUNE RESPONSE TO STRESS
• Recent research has shown that immune system is a key player in stress physiology
...

NEUROENDOCRINE AXIS:
• The other way in which the brain can communicate with the immune system is via the HPA system
...

• Cortisol can also prompt some immune cells to move out from circulating blood into lymphoid
organs or peripheral tissues, such as the skin
...
g
...


IMMUNE RESPONSE TO STRESS
• Autonomic Nervous System
• Sympathetic nervous system activation can reduce cellular immune response activation by
suppressing the activity of diverse populations of immune cells, including natural killer (NK) cells
and T lymphocytes
...

CHRONIC STRESS, DEPRESSION, AND IMMUNITY:

• Chronic or naturalistic stressors are associated with reliable decreases of cellular and innate
immunity
...
This latter
observation is not surprising, because individuals undergoing stress often report negative emotions
and depressive symptoms, and the presence of such affective symptoms is associated with greater
immune alterations
...
g
...
Chronic hyperactivation of the stress system may
lead to osteoporosis and metabolic syndrome
...
Activation is
represented by solid green lines and inhibition by dashed red
lines
...

• Reported in 1943, issue of phytopathology by C
...
Ehrlich
...
He came up with this basic principle of toxicology:
The dose makes the poison
...
It is only the dose
which makes a thing poison
...

• Hormetic stress Resistance proteins- Protein Chaperons- HSP,
antioxidant enzymes, growth factors like – insulin-like growth
factor, brain derived neurotrophic factor
...


Mild Stress

No stress
Hormetic Response
Adaptive signaling
Autophagy
Unfolded protein response
Heatshock protein

Preconditioned state

Stress resistance
Cell survival

Intense stress

Cellular damage
Cell death

Hormesis governs the pleotropic pre-survival program

Dietary and Behavioral Neurohormesis
Dietary restriction

Physical exercise
BDNF- Brain derived neurotropic factor
GDNF-Glial cell line derived neurotropic factor
HSP- Heat shock protein
GRP- Glucose regulated protein
SSRI- Serotonin reuptake inhibitors

Neuroprotection
Neurogenesis
Synaptic Plasticity

Cognitive Enrichment

Cellular Stress Response
Serotonin

BDNF
GDNF
HSP-70
GRP-78

SSRI

Improved Glucose metabolism

Resistance to neurodegenerative disorders
Resistance to diabetic and cardiovascular disease

Mechanism of exercise, dietary restriction and cognitive stimulation
exert beneficial effects

Glutamate concentration
LOW
(Normal Synaptic activity)

Small / transient Calcium
influx

Maintenance of
function

MEDIUM

HIGH

(Cognitive Stimulation/
mild ischemia)

(Seizures, severe
ischemia)

Moderate/transient
calcium influx- stress
response

Large sustained/
calcium influx toxicity

Enhanced function and
disease resistance

Cell dysfunction, Cell
death

The excitatory amino acid neurotransmitter : a typical non-linear dose-response hormesis
mechanism

ROS,TNF,

Ischemia,
Aβ
Serine +
Palm Co A

SPT

Sphingomyelins

CERAMIDES
SMase
High

Mitochondrial
Alterations
ROS

CELL DEATH

Low

CAPP

TNF

HORMESIS

SPT- Serine Palmitoyl transferase
CAPP- Ceramide activated protein-phosphatase
A β - Amyloid beta peptide
Smase- Sphingomyelinase
TNF – Tumour necrosis factor

Ceramide, an endogenous stress-induced lipid that can induce hormesis or cell death



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