User:Subertalli/Neurochemistry

Addition to history section: Irvine Page (1901-1991) was an American psychologist that published the first major textbook focusing on neurochemistry in 1937. He had also established the first department that was solely devoted to the study of neurochemistry in 1928 at the Munich Kaiser Wilhelm Institute for Psychiatry.

Back in the 1930s, neurochemistry was mostly referred to as “brain chemistry” and was mostly devoted to finding different chemical species without directly proposing their specific roles and functions in the nervous system. The first biochemical pathology test for any brain disease can be attributed to Maria Buscaino (1887-1978), a neuropsychiatrist who studied schizophrenia. She found that treating her patients’ urine who had schizophrenia, extrapyramidal disorders, or amentia, with 5% silver nitrate produced a black precipitate linked with an abnormal level of amines. This became known as the “Buscaino Reaction.”

Neurotypical Neurochemistry
Neurochemistry is the study of the different types, structures, and functions of neurons and their chemical components. Chemical signaling between neurons is mediated by neurotransmitters, neuropeptides, hormones, neuromodulators, and many other types of signaling molecules. Many neurological diseases arise due to an imbalance in the brain’s neurochemistry. For example, in Parkinson’s Disease, there is an imbalance in the brain’s level of dopamine. Medications include neurochemicals that are used to alter brain function and treat disorders of the brain. A typical neurochemist might study how the chemical components of the brain interact, neural plasticity, neural development, physical changes in the brain during disease, and changes in the brain during aging.

Neurotransmitters and Neuropeptides
The most important aspect of neurochemistry is the neurotransmitters and neuropeptides that comprise the chemical activity in the nervous system. There are many neurochemicals that are integral for proper neural functioning.

The neuropeptide oxytocin, synthesized in magnocellular neurosecretory cells, plays an important role in maternal behavior and sexual reproduction, particularly before and after birth. It is a precursor protein that is processed proteolytically to activate the neuropeptide as its shorter form. It is involved in the letdown reflex when mothers breastfeed, uterine contractions, and the hypothalamic-pituitary-adrenal axis where oxytocin inhibits the release of cortisol and adrenocorticotropic hormone.

Glutamate, which is the most abundant neurotransmitter, is an excitatory neurochemical, meaning that its release in the synaptic cleft causes the firing of an action potential. GABA, or Gamma-aminobutyric acid, is an inhibitory neurotransmitter. It binds to the plasma membrane in the synapses of neurons, triggering the influx of negatively charged chloride ions and the efflux of positively charged potassium ions. This exchange of ions leads to the hyperpolarization of the transmembrane potential of the neuron, which is caused by this negative change.

Dopamine is a neurotransmitter with much importance in the limbic system which regulates emotional function regulation. Dopamine has many roles in the brain including cognition, sleep, mood, milk production, movement, motivation, and reward.

Serotonin is a neurotransmitter that regulates mood, sleep, and other roles of the brain. It is a peripheral signal mediator and is found in the gastrointestinal tract as well as in blood. Research also suggests that serotonin may play an important role in liver regeneration.