Abstract
Two anti-neurophysin monoclonal antibodies (MABs), PS 36 and PS 41, described in the preceding paper (Ben-Barak, Y, J.T. Russell, M.H. Whitnall, K. Ozato, and H. Gainer (1985) J. Neurosci. 5:000–000), allowed us to specifically stain for oxytocin-associated neurophysin (NP-OT) or vasopressin-associated neurophysin (NP-AVP) in the hypothalamus of developing rats. Staining with these MABs specific for NP-OT or NP-AVP showed that both types of neurophysin appeared in cells in the developing hypothalamus as early as embryonic day (E16) and continued to increase in immunoreactivity throughout fetal life. The literature indicated that oxytocin appears in the system between E20 and E22, much later than vasopressin (E16 to E17), which we confirmed in immunocytochemical experiments using affinity-purified antisera to these hormones. Since the MABs recognize the specific prohormones as well as the specific mature neurophysins (Ben-Barak, Y., J. T. Russell, M.H. Whitnall, K. Ozato, and H. Gainer (1985) J. Neurosci. 5: 81–97), we conclude that there is a developmental delay between the synthesis of the oxytocin prohormone (pro-oxyphysin) and its processing to form oxytocin and NP-OT. The delay in prohormone processing in the oxytocin cells was correlated with a delay in immunocytochemically detectable neurites as compared to the vasopressin cells. This reduced level of axonal and dendritic immunoreactivity was still obvious in the oxytocin cells at 9 days after birth. In contrast, the clustering of cells to form adult-like hypothalamic nuclei appeared to follow similar time courses for the two types of cells. Adult-like distributions of cells staining for NP-OT and NP-AVP were already apparent in the supraoptic and paraventricular nuclei by E17.
