Insulin-like growth factors (IGFs) are present in the brain throughout life. While
their role as modulators of brain growth and differentiation during development is
becoming apparent, their possible involvement in adult brain function is less known.
Nevertheless, accumulating evidence indicates a role for IGFs in brain plasticity
processes. Specifically, IGFs modulate synaptic efficacy by regulating synapse formation,
neurotransmitter release and neuronal excitability. IGFs also provide constant trophic
support to target cells in the brain and in this way maintain appropriate neuronal
function. Pathological dearrangement of this trophic input may lead to brain disease.
Molecular targets of the IGFs in the adult brain may include pre- and post-synaptic
proteins involved in synaptic contacts, membrane channels, neurite-guiding molecules,
extracellular matrix components and glial-derived intercellular messengers. Future
studies on the role of IGFs in the adult brain may help unravel the relationship between
neuronal plasticity and brain disease.
Key words
Insulin-Like Growth Factors - Neuronal Plasticity - Synapse Plasticity - Neurodegeneration
