Shirley B. House scite author profile

Double immunofluorescence studies using antibodies against NF-L and peripherin revealed three distinct subpopulations of neurons in rat dorsal root ganglia (DRG). In the adult rat, 46% of the DRG neurons were small and peripherin-positive (NF-L-negative), and 48% were large and NF-L-positive (peripherin-negative). About 6% were both peripherin- and NF-L-positive. All of the DRG neurons reacted with antibodies to NF-M and nonphosphorylation-dependent or phosphorylation-independent antibodies to NF-H. The neuropeptides were predominantly found in the peripherin-positive small cell population. Eighty-seven percent of the peripherin-positive small cell population contained substance P immunoreactivity, while 43% of this cell population contained CGRP. In contrast, only 18-24% of the NF-L-positive large-cell population contained neuropeptides, and these were primarily in a smaller sized subpopulation. Similar patterns of antigen representation were observed in neonatal (PN2) DRG cell populations. Tissue cultures of sensory ganglion cells from PN2 DRG, in serum-free medium, stably maintained exclusively peripherin-positive neurons, with about 5% of these containing coexistent NF-L immunoreactivity. Very high levels of neuropeptide gene expression were exhibited by these postnatal neurons in culture.

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Stationary Organotypic Cultures of Oxytocin and Vasopressin Magnocellular Neurones from Rat and Mouse Hypothalamus

House

Thomas

Kusano

et al. 1998

J Neuroendocrinology

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Rat and mouse hypothalami from postnatal animals containing highly differentiated neurones survive very well in long-term (>15 days in vitro, DIV) stationary organotypic cultures. Magnocellular oxytocin (OT) and vasopressin (VP) neurones are present in identifiable paraventricular (PVN), supraoptic (SON) and accessory (ACC) nuclei in these cultures. After 15 DIV in standard medium immunocytochemistry revealed 427 +/- 63 OT cells and 217 +/- 27 VP cells per cultured rat hypothalamus, and 380 +/- 72 OT cells and 622 +/- 91 VP cells per cultured mouse hypothalamus. Following a 7-day adaptation period in standard culture medium containing serum, the rat slice-explants survived very well after subsequent transfer to defined, serum- free media (SFM) for an additional 8 days. The number of OT cells surviving in SFM was 612 +/- 147 OT cells per cultured rat hypothalamus. Only 0.5% of the magnocellular OT and VP neurones in the cultures appeared to express both peptides. Experiments on c-fos gene expression in these cultures showed that while only 12% of the magnocellular OT and VP neurones contained barely detectable Fos protein in their nuclei under control conditions, potassium depolarization of these cultures for 3 h produced intense c-fos expression in 87-91% of these cells. Thus, magnocellular neurones in these cultures are sufficiently stable and responsive to permit long-term physiological and gene expression studies to be done under defined media conditions.

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Biochemical and immunocytochemical characterization and distribution of phosphorylated and nonphosphorylated subunits of neurofilaments in squid giant axon and stellate ganglion

Rs¹,

Pant²,

House³

et al. 1987

J. Neurosci.

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Monoclonal antibodies to squid neurofilament (aNFP) and intermediate filament (aIFA) proteins were used as probes for the biochemical and immunocytochemical analyses of neurofilament structure and distribution in the squid giant axon and stellate ganglion. On Western blots the aNFP antibody stained exclusively the 220 kDa and high-molecular-weight (HMW) components of neurofilaments in the giant axon, whereas the aIFA antibody primarily labeled the 60 kDa protein in the giant axon and the 60 and 65 kDa proteins in the stellate ganglion. Dephosphorylation of axoplasmic proteins by alkaline phosphatase resulted in a decrease in the molecular weights of both the 220 kDa and HMW neurofilament proteins and a concomitant loss of reactivity with the aNFP antibody on Western blots. This indicated that the aNFP antibody is specific for a phosphorylated epitope in the neurofilament. Increased dephosphorylation of the 220 kDa protein led to an enhanced immunostaining of the resultant 190 kDa polypeptide by the aIFA antibody, suggesting that the phosphorylated epitope may mask the conserved epitope recognized by aIFA. Light and electron microscopic immunocytochemical studies show intense labeling by the aNFP antibody in the giant axon. In contrast, the aIFA antibody labeled the glial cells around the giant axon intensely, while labeling of the giant axon itself was considerably less than that with the aNFP antibody. Since the 60 kDa protein in axoplasm is intensely stained by the aIFA antibody on Western blots, the relatively low amounts of labeling seen on semithin and thin sections of the giant axon by this antibody may be due to the masking of the 60 kDa protein by in situ fixed axoplasmic proteins. However, the aIFA antibody intensely labeled glial cells within the stellate ganglion and "islands" of filaments and nuclear membranes within ganglion cells. No reactivity for either antibody was seen in synapses. The aNFP antibody specifically labeled "beadlike" portions and cross-bridges on the axonal neurofilaments, suggesting that these components consist of the 220 kDa and HMW proteins. In contrast, the aIFA antibody labeled relatively smooth filaments in ganglion and glial cells. These data suggest that the 65 kDa protein represents the squid glial filament protein and that the 60 kDa protein found in axoplasm represents the low-molecular-weight subunit in the axonal neurofilament. The latter appears to be formed and/or organized in "islands" of filaments within ganglion cells.(ABSTRACT TRUNCATED AT 400 WORDS)

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Shirley B. House

NF‐L and peripherin immunoreactivities define distinct classes of rat sensory ganglion cells

Stationary Organotypic Cultures of Oxytocin and Vasopressin Magnocellular Neurones from Rat and Mouse Hypothalamus

Biochemical and immunocytochemical characterization and distribution of phosphorylated and nonphosphorylated subunits of neurofilaments in squid giant axon and stellate ganglion

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