32 research outputs found
Myelination in rat brain aggregating cell cultures.
Aggregates of fetal rat brain were maintained in rotating culture for 30-40 days and were analyzed morphologically and biochemically. At 4 days in culture all cells were undifferentiated. At 26 days in vitro over 90% of all cells within the aggregates could be identified as neurons, astrocytes or oligodendrocytes. Myelinated axons and morphologically mature synapses were present at 26 days. Myelination started between 18 and 19 days in culture as determined biochemically. Myelin basic protein sulphatide synthesis and 2′,3′-cyclic nucleotide 3′-phosphohydrolase activity increased with in vitro age. The amount of myelin observed within the aggregates was much lower than observed at the corresponding age in vivo. Neurons and neuronal processes were undergoing severe degeneration in the 40-day aggregates and synaptic contacts were not maintained. There were no normal myelinated axons at 40 days although multilammellar membranes were found intra- and extracellularly. The ganglioside pattern of the aggregates were qualitatively similar to rat whole brain. Quantitatively the GM3ganglioside was elevated in comparison to whole rat brain.
Our results indicate that aggregating rat brain cultures provide a useful in vitro system for the biochemical and morphological analysis of myelin formation
Myelin-associated glycoprotein and related glycoconjugates in developing cat peripheral nerve: a correlative biochemical and morphometric study
The expression and accumulation of the myelin-associated glycoprotein (MAG) and other glycoconjugates have been studied during myelination in the developing cat peripheral nervous system. The glycoconjugates studied have in common a similar carbohydrate determinant which is bound by many antibodies, including the mouse monoclonal antibody HNK-1, and human IgM paraproteins from patients with neuropathy. In addition to MAG, the reactive glycoconjugates include a 60-kilodalton (kD) glycoprotein and a group of 20-26 kD glycoproteins, as well as a group of recently identified acidic glycolipids, the major one of which is sulfate-3-glucuronyl paragloboside (SGPG). The accumulation of these glycoproteins and glycolipids is compared with the established myelin proteins P0, P1, and P2 and with morphometric indices of myelin volume and axonal perimeter. The study demonstrates that MAG appears and accumulates very early during myelination, being present at 15% of the maximum level prior to the appearance of P0, and at 80% of the maximum level when P0 is at 30% of its maximum level. In the adult, the level of MAG falls to 60% maximum. The 60 kD and 20-26 kD glycoproteins accumulate at the same time as or later than P0, suggesting that they are either compact myelin proteins or in membranes closely associated with compact myelin. SGPG accumulates with P0 early in myelination, but falls to 60% of maximum in the adult. By comparing biochemical and morphometric data, we demonstrate that P0 and other compact myelin proteins accumulate synchronously with the increase in myelin area. MAG accumulation, however, is closely related to changes in axonal perimeter, consistent with a predominant localization of MAG to the periaxonal membranes in the peripheral nervous system