Experimentally induced increases in glutamine synthetase in the optic tectum in the embryo and in culture

Tissue-specific regulation of avian glutamine synthetase expression during development and in response to glucocorticoid hormones

We have isolated a glutamine synthetase cDNA clone derived from chicken retinal RNA. The clone detects a 3.2-kilobase RNA in chicken retina, liver, and brain, based on Northern blotting analysis. The dramatic developmental rise observed for the retinal enzyme, assayed as glutamyl transferase activity, is accompanied by a corresponding rise in this RNA. Injection of hydrocortisone 21-phosphate into the yolk sac of day 10 embryos produces an increase in retinal glutamine synthetase mRNA and glutamyl transferase activity, assayed 4 days after injection. An increase in glutamine synthetase mRNA is also observed within 2 h of incubation of retinal organ cultures with hydrocortisone. Moreover, incubation of these cultures with cycloheximide at a concentration that inhibits protein synthesis by 93% affects neither the basal level nor the hydrocortisone-mediated induction of glutamine synthetase mRNA. Although expression of this RNA is developmentally regulated in the brain, steroid hormone injection does not result in a substantial induction. Hepatic glutamine synthetase mRNA is expressed constitutively between embryonic day 10 and 6 days after hatching and is also not hormone inducible. Southern blotting data with chicken DNA digested with EcoRI, HindIII, and BamHI are best interpreted in terms of the cDNA clone detecting only one gene. If so, several cell-type-specific regulatory mechanisms must function to modulate expression of this gene during development.

Tissue-specific regulation of avian glutamine synthetase expression during development and in response to glucocorticoid hormones

We have isolated a glutamine synthetase cDNA clone derived from chicken retinal RNA. The clone detects a 3.2-kilobase RNA in chicken retina, liver, and brain, based on Northern blotting analysis. The dramatic developmental rise observed for the retinal enzyme, assayed as glutamyl transferase activity, is accompanied by a corresponding rise in this RNA. Injection of hydrocortisone 21-phosphate into the yolk sac of day 10 embryos produces an increase in retinal glutamine synthetase mRNA and glutamyl transferase activity, assayed 4 days after injection. An increase in glutamine synthetase mRNA is also observed within 2 h of incubation of retinal organ cultures with hydrocortisone. Moreover, incubation of these cultures with cycloheximide at a concentration that inhibits protein synthesis by 93% affects neither the basal level nor the hydrocortisone-mediated induction of glutamine synthetase mRNA. Although expression of this RNA is developmentally regulated in the brain, steroid hormone injection does not result in a substantial induction. Hepatic glutamine synthetase mRNA is expressed constitutively between embryonic day 10 and 6 days after hatching and is also not hormone inducible. Southern blotting data with chicken DNA digested with EcoRI, HindIII, and BamHI are best interpreted in terms of the cDNA clone detecting only one gene. If so, several cell-type-specific regulatory mechanisms must function to modulate expression of this gene during development.

Gliogenesis in the embryonic avian optic tectum: neuronal-glial interactions influence astroglial phenotype maturation

We have analyzed the development of neuroglial cells in the chick optic tectum under 3 sets of developmental conditions to assess the role of heterotypic cell-cell interactions in gliogenesis. Immunochemical and biochemical methods were employed to measure and localize the expression of the glial markers glutamine synthetase, glial fibrillary acidic protein, S-100 protein, carbonic anhydrase-C and myelin basic protein as functions of development in situ and in aggregation and monolayer cultures of dissociated embryonic tissue. The results showed that certain astroglial cells can be recognized as early as day 9 of development in situ. Oligodendroglial development manifests several days later and the full range of glial subtypes are not evident until nearly the time of hatching. Culture of 7-day embryonic tectum cells either in aggregates or in monolayer cultures failed to yield definitive oligodendroglia. Fibrous astroglia, as defined by glutamine synthetase and glial fibrillary acidic protein, developed well in both culturing systems. However, as previously noted in the embryonic neural retina system, glutamine synthetase expression was marked dependent on neuronal-glial associations.

Glycerol phosphate dehydrogenase in developing chick retina and brain

The development of cytoplasmic glycerol phosphate dehydrogenase (GPDH) activity in chick neural retina is compared with that in brain. GPDH converts dihydroxyacetone phosphate to glycerol 3-phosphate, an intermediate in phospholipid synthesis. The enzyme is known to be under corticosteroid control in rat brain and spinal cord (but not muscle or liver) and in primary oligodendrocyte cultures. It has not been previously studied in the eye. In chick brain the GDPH specific activity rises fivefold from the early embryo to the adult, with nearly all the increase occurring between embryonic day 14 and hatching. This time course correlates well with the known maturation of chick adrenal cortex (which produces corticosteroids). On the other hand, in chick retina the GPDH specific activity remains at a low basal level throughout development. Furthermore, adult rat and beef retinas show much lower enzyme activity than do the corresponding brain tissues. GPDH can be induced precociously by hydrocortisone in embryonic chick brain from days 12 through 16, both in the intact embryo and in tissue culture; however, GPDH is not at all inducible in chick retina. The developmental increase in chick brain GPDH can be correlated qualitatively with myelin formation, as shown by luxol fast blue staining, whereas no myelin is seen in retina at any age. Our results are consistent with recent immunocytochemical studies demonstrating that GPDH in rat brain is associated with myelin-producing oligodendroglial cells, absent in retina. In comparison, another glial enzyme, glutamine synthetase (GS), known to be inducible in both chick brain and retina, is localized in brain astrocytes and retinal Müller cells.