A procedure is described for the isolation of the nervous system-specific protein designated 14-3-2 from rat brain. The methods utilized are salt precipitation, DEAE-cellulose ion exchange chromatography, Sephadex G-150 gel filtration, and column isoelectric focusing. The native 14-3-2 protein has an isoelectric point of 4.7 in the absence of denaturing agents and 5.0 in the presence of 2.0 M urea. The protein, as isolated, appears homogeneous since it migrates as a single band on Tris-glycine (pH 8.9), sodium dodecyl sulfate (pH 7.2), and 8 M urea (pH 4.0) polyacrylamide gels. Sedimentation velocity and equilibrium data indicate a homogeneous component of molecular weight 78,000. Sedimentation of 14-3-2 in 6 M guanidine HCl containing 0.02% glutathione yielded a molecular weight of 39,000, indicating the dimeric nature of the protein as isolated. The rat brain protein seems to be composed of one subunit type, since polyacrylamide gel electrophoresis in 8 M urea yields a single protein component. Sodium dodecyl sulfate gel electrophoresis of rat brain 14-3-2 produced one sharp band with a relative mobility corresponding to a molecular weight of 48,000. Specific anti-14-3-2 serum has been prepared from both New Zealand white rabbits and goats. Rat 14-3-2 is very similar in amino acid composition to the beef brain protein and to antigen alpha. The antigenic properties of rat and beef 14-3-2 are also similar, since beef 14-3-2 antiserum reacts well with rat 14-3-2 and vice versa. Electrophoretic mobilities of denatured rat and beef 14-3-2 (0.1% sodium dodecyl sulfate and 8 M urea) are identical. Despite these similarities the two proteins are completely resolved on Tris-glycine gels. The sedimentation behavior of the beef and rat proteins are also different, indicating a difference in the association state and conformation of the two preparations.
Polyribosomes, carrying nascent polypeptide chains, were prepared from whole brain, cortex, and hindbrain-medullary white matter of young adult rats. In a homologous cell-free system, a brain-specific protein (S100 protein) was identified in the mixture of polypeptides released from the polyribosomes during incubation for 1 hr at 37 degrees . De novo synthesis of the S100 protein was achieved in a reconstituted cerebral cell-free system containing polysome-derived mRNA and 40S + 60S subunits. The radioactively labeled S100 protein synthesized in vitro was identified by precipitation with antibody to S100 after addition of purified S100 as a carrier, and migration of the solubilized precipitate on acrylamide gels in the presence of sodium dodecyl sulfate. In vitro synthesis of the S100 protein did not occur in analogous cell-free systems derived from hepatic tissue or in a heterologous system containing liver polyribosomes and cerebral enzymes.
The development of the chick optic lobe was impaired following removal of the optic cup of the early embryo. Tectal cell number is reduced but cell size may be relatively normal. There was evidence of neuronal cell death and several neuron-associated proteins and enzymes (nerve-specific protein and acetylcholinesterase) showed selectively impaired maturation. However, other nerve-specific enzymes (choline acetyltransferase, tyrosine hydroxylase), develop normally on a per cell basis. The noninnervated optic lobe had a normal blood-brain barrier but a depressed ability to accumulate amino acids from plasma. Levels of 3': 5'-cyclic GMP were also reduced in the nonafferented lobe.
