Development of the neurogliohemal complex in the mouse neurohypophysis.

The mouse neurohypophysis was studied at different ages of development in order to analyse the ultrastructural changes that lead to the maturation of the neurogliohemal complex and to determine the existence of permeability between the blood capillaries and the neurohypophysial channels. In all the studies ages, two groups of 5 animals each were intravenously injected with different tracer solutions: to one group, 10 microliters of cationized ferritin were used and to the other, 10 microliters of ferrous fumarate were applied. For the ultrastructural studies the tissue samples were processed using the conventional techniques for electron microscopy. At day 17 of prenatal age, some hypothalamic axons (10 axonic profiles/20 microns2) were already seen within the neurohypophysis, increasing threefold (26 to 30 axonic profiles/20 microns2) at prenatal day 19. In these axons terminals, the first neurosecretory vesicles began to appear. At this early age, the glial cells formed few prolongations. Between postnatal days 1 and 9, numerous axon terminals containing dense neurosecretory vesicles composed the neuropile areas. After day 9, there was a broadening of the intercellular space, which we have termed as neurohypophysial channels; these were actually expansions of the existing extracellular space in the neurohypophysis. Between days 9 and 21, the population of axon terminals showing a higher density of neurosecretory vesicles continued to increase in number. Some of these axon terminals were separated by irregular neurohypophysial channels. The glial cells showed scarce cytoplasm and formed numerous lamellar prolongations, which became increasingly finer surrounding bundles of individual axons.(ABSTRACT TRUNCATED AT 250 WORDS)