Effects of opioid peptides and naloxone on tissue from the central and peripheral nervous system in culture

A study was made of the effects of opioid peptides (leu-enkephalin and dalargin AE-1, its synthetic analog) and of naloxone, an opiate receptor blocker, on organotypic cultures of spinal cord and spinal ganglia cells. The cellular composition and size of explant outgrowth was estimated according to in vitam morphological observations. It was found that all the opioid peptides tested at concentrations of 10−9-10−10M exercise a clear-cut growth-promoting effect on cultures from the spinal cord as well as those from the peripheral nervous system [4, 5]. Naloxone at a concentration of 10−5-10−6 M does not block peptide action, but itself stimulates growth. It was also proved that opioid peptides act as trophic factors for spinal ganglia nerve cells, increasing their survival in culture. Endorphins can thus serve as growth factors for tissues of the peripheral as well as the central nervous system. The likely processes lying at the root of the growth-promoting and trophic effects of endorphins on nerve tissue are discussed.