BDNF & Exercise
one post-synaptic effect is to enhance
NMDA neurotransmitter receptor function
IGF-1 and BDNF
act via converging second messenger systems in the neuron
planning and executing movements
advantageous in pursuit of food, survival
could be physical exercise improving energy metabolism
allowing more efficient brain performance
dietary changes that improve memory in the aged animal
also act on BDNF system
ability to perceive food
anticipate animals movements, remember bountiful locations etc. facilitates survival
caloric restriction, or every-other-day-fasting (EODF)
both increase BDNF and enhance cognition
thus, likely the interactions between
cognitive and physical abilities could enhance one another
another strain of mutant mice with low BDNF
eat too much, are overweight and have insulin insensitivity
a pre-synaptic effect BDNF
exerts is to increase synapsis 1 expression, no more transmitter released per action potential
brain uses roughly one quarter of
glucose in blood
people with metabolic disorders also
have low levels of BDNF
the anatomical distribution of BDNF in the brain shows that it is the
highest in hippocampus (learning) and hypothalamus (neuroendocrine: energy regulation)
energy pursuit and consumption, one
important key to efficient brain function
multiple studies in animals and people show exercise
improves cognitive function
blocking BDNF
inhibits learning, restoring it restores learning
IGF-1 also enhances
insulin function
haas been proposed that thought is
internalized movement planning, execution
insulin-like growth factor 1 (IGF-1)
is a hormone made in the brain and in the periphery
IGF-1 enhances hippocampul learning
its hypothesized through interacting with BDNF since IGF-1 stimulates BDNF synthesis
BDNF initiates a number of biochemical changes associated with
learning, both pre and post synaptic
the ventral media hypothalamic nucleus (VMN) plays a role in controlling
lipids (fat) storage in the body
BDNF and pro-BDNF both are found in
low-levels of alzheimers disease
BDNF is also involved with controlling eating behaviors
mice with impaired BDNF levels overeat and become obese
IGF-1 has
neurotropic effects
VMN damage causes
overeating which led to the old theory that VMN is the satiety center in the body
best hunter/gatherers were likely humans who could
perform best cognitive functions (memory) combined with physical functions (speed)
there are limits to improvement
possibly due to individual capabilities
in many non-human animal species, the male that is most successful at
providing resources for offspring often is most successful at reproducing
a recent case study of a person with natural mutation that caused BDNF
receptors to not work showed overeating, obesity and cognitive problems
BDNF administration in these animals also
restores insulin sensitivity
hippocampus, central memory structure fires in
rhythmical patter, ideal for learning while animal is walking
BDNF is important in
synaptogenesis and LTP, both physiological mechanisms of learning in the brain
brain-derived neurotropic factor (BDNF)
synthesis stimulated by physical exercise
exogenous BDNF, either ICV or peripheral will restore mutant mice
that have lower BDNF levels to normal weight range
if males physically compete for territory
the strongest, toughest, most clever reproduce most
advanced human cognitive capabilities may have evolved because
they aid in acquiring food
the high affinity BDNF receptor
trckB is also upregulated by exercise
BDNF stimulates
trckB receptors and is trophic to neurons, pro-BDNF, stimulates p75 receptors and may trigger apoptosis so the balance of BDNF and pro-BDNF is important to determining its net effects
chronic exercise keeps BDNF
upregulated, while other neurotrophins will go back to baseline, so BDNF is the best candidate molecule right now for exercise' effects
hippocampus site BDNF most greatly up-regulated
with exercise also involved with spatial memory
some pro-BDNF is likely cleaved into
BDNF after released, from the neuron while some pro-BDNF is which exerts its own effects is not cleaved into BDNF
pro-BDNF is the precursor protein to
BDNF, it is released from neurons as well as BDNF itself is released
