AN INVESTIGATION OF THE POSSIBLE ROLE OF PHOSPHOINOSITIDES AS REGULATORS OF ACTION POTENTIALS BY STUDYING THE EFFECT OF ELECTRICAL STIMULATION, TETRODOTOXIN AND CINCHOCAINE ON PHOSPHOINOSITIDE LABELLING BY 32P IN RABBIT VAGUS

Abstract— The effect of electrical stimulation, tetrodotoxin and cinchocaine (the latter two substances abolish action potentials) on the incorporation of [³²P]orthophosphate into the phosphoinositides of isolated rabbit vagus nerve has been studied. Electrical stimulation, or treatment with tetrodotoxin, had little significant effect on the incorporation of [³²P]orthophosphate into the phosphoinositides. Cinchocaine, however, caused a 3.5–4.4-fold increase ( P = < 0.001) in monophosphoinositide labelling. These findings are discussed in view of the possible function of the phosphoinositides in the nervous system.     

NOREPINEPHRINE INCREASES THE [32P]LABELLING OF A SPECIFIC PHOSPHOLIPID FRACTION OF POST-SYNAPTIC PINEAL MEMBRANES

Abstract— Cultured pineal glands incorporated ³²P into membrane phospholipids. Treatment of cultured glands with norepinephrine, which is known to stimulate membrane- bound pineal adenyl cyclase and to increase the production and secretion of melatonin, stimulated the incorporation of ³²P into a phospholipid fraction of membranes and particulates containing phosphatidyl serine and phosphatidyl inositol. The labelling of other phospholipid fractions and the total ³²P in the gland were not changed by norepinephrine treatment. Experiments with chronically-denervated pineal glands indicated that the effect of norepinephrine on the [³²P]labelling of phospholipids occurred at a postsynaptic site. When norepinephrine-stimulated secretion of melatonin was partially inhibited by p -chlorophenylalanine (a compound which blocks the synthesis of melatonin precursors), the norepinephrine-stimulated labelling of phospholipids was still observed. Conversely, when melatonin secretion was stimulated in the absence of norepinephrine by treatment with the immediate precursor of melatonin, N -acetylserotonin, a stimulation of ³²P- labelling of phospholipids did not occur. These observations suggest that the increased [³²P]- labelling of a phospholipid fraction caused by the norepinephrine treatment is not related to the secretion of melatonin. This effect on phospholipids may be associated with the interaction of norepinephrine with a membrane-bound postsynaptic receptor. Stimulation by norepinephrine of [³²P]-incorporation into phospholipids has not been previously reported to occur in a tissue in which cholinergic fibres are absent.     

Pathway and regulation of phosphate translocation to the pods of soybean explants

We investigated the degree to which developing fruit compete directly with leaves for mineral nutrients, e.g. phosphate coming up from the roots. When soybean ( Glycine max (L.) Merrill cv. Anoka) explants cut at mid-late podfill were given a 15-min pulse of ³²Pi via the cut stem and then transferred to distilled water, 75% of the ³²P accumulated in the leaves and 21% in stem and petiole during the first hour. The amount of ³²P entering the seeds was low (1%) initially, but thereafter increased to 30% in 48 h. An accumulation of ³²P in the seed coats preceded its entry into the embryos. Disruption (with hot steam) of the phloem between the leaf and the pods after pulse labelling indicated that more than 80% of the ³²Pi pulse moved to the leaf before redistribution to the pods. Increasing "sink" size by adjusting the pod load from 1 to 2–3 did not increase the ³²P accumulated by the pods proportionally. Conversely, excision of the seeds after pulse labelling did not prevent translocation of ³²P out of the leaves. These results suggest that the rate of transport of phosphate to the pods at mid-late podfill is controlled primarily by factors in the leaves. The results are consistent with the observation that the relative size of the sink (pod load) does not regulate leaf senescence.     

THE CEREBELLAR GLOMERULUS: ISOLATION AND METABOLIC PROPERTIES OF A PURIFIED FRACTION

Abstract— A method is described for large scale isolation of glomerular complexes from rabbit cerebellum. The purity of the fraction is 90–95%, measured by quantitative electron microscopy. In addition biochemical markers indicate a high degree of particle integrity. The glomeruli occur as mechanically separable units at 20–40 days of animal age and the amount of protein per particle is 15–20 × 10⁻¹¹ g. The glomeruli accumulate [³H]GABA, and exhibit both high ( K _m 15μM) and low ( K _m 0.5 mM) affinity uptake properties. Glomeruli oxidize α-glycerophosphate and succinate particularly well, while glutamate, pyruvate and α-ketoglutarate are less effective as respiratory substrates.     

INCORPORATION OF 32P INTO THE PHOSPHOLIPIDS OF NEURONAL AND GLIAL CELL ENRICHED FRACTIONS ISOLATED FROM RABBIT CEREBRAL CORTEX: EFFECT OF NOREPINEPHRINE

Abstract— Glial cells isolated from rabbit cerebral cortex contained approximately one-third more phospholipids per unit protein than the neuronal cell bodies. The pattern of individual phospholipids was rather similar in both cell types. The incorporation of intracisternally administered ³²P into neuronal and glial phospholipid classes of rabbit brain was studied at intervals ranging from 5 to 60min. In general, for all investigated phospholipids the incorporation of the label was somewhat faster in neurons than in glial cells. Phosphatidylinositol showed the fastest and ethanolamine plasmalogen the slowest incorporation of ³²P in both neurons and glial cells. A lag phase of about 10 min could be observed before labelling of the glial phosphatidylcholine, phosphatidylethanolamine, ethanolamine plasmalogen, phosphatidylserine and sphingomyelin had occurred. Among the neuronal phospholipids a lag phase was found only for the labelling of the ethanolamine plasmalogen. Norepinephrine increased the incoropration of ³²P into phosphatidylinositol of both glia and neurons but had no effect on the specific radioactivity of ethanolamine plasmalogen and sphingomyelin. Labelling of phosphatidylcholine was slightly inhibited in both cell types by the administration of norepinephrine.     

Effects of dichloroisopropylarterenol on respiration, nucleotide ∼ P and phospholipids of slices of cerebral cortex

In a Recent report Hokin (1969) showed that norepinephrine stimulated the incorporation of ³²P into phosphatidic acid (PA) of slices of cerebral and cerebellar cortex and into phosphaditylinositol (PI) of slices of cerebral cortex. In the course of our experiments on agents affecting the metabolism of phospholipids, the effects of epinephrine and its antagonist, dichloroisopropylarterenol (DCI), on the labelling of energy-rich nucleotides and phospholipids of cerebral tissue have been measured. Epinephrine had no significant effect but DCI stimulated the incorporation of ³²P into PA by 165 per cent and into PI by 90 per cent.     

Multiple GTP-binding proteins in sea urchin sperm: Evidence for Gs and small G-proteins

Sea urchin sperm plasma membranes isolated from heads and flagella were used to examine the presence of Gs (stimulatory guanine nucleotide-binding regulatory protein) and small G-proteins. Flagellar plasma membranes incubated with [³²P]NAD and cholera toxin (CTX) displayed radiolabeling in a protein of 48 kDa, which was reactive by immunoblotting with a specific antibody against mammalian Gs. CTX-catalyzed [³²P]ADP-ribosylation in conjunction with immunoprecipitation with anti-Gs, followed by electrophoresis and autoradiography, revealed one band of 48 kDa. Head plasma membranes, in contrast, did not show substrates for ADP-ribosylation by CTX. In flagellar and head plasma membranes pertussis toxin (PTX) ADP-ribosylated the same protein described previously in membranes from whole sperm; the extent of ADP-ribosylation by PTX was higher in flagellar than in head membranes. Small G-proteins were investigated by [³²P]GTP-blotting. Both head and flagellar plasma membranes showed three radiolabeled bands of 28, 25 and 24 kDa. Unlabeled GTP and GDP, but not other nucleotides, interfered with the [α-³²P]GTP-binding in a concentration-dependent manner. A monoclonal antibody against human Ras p21 recognized a single protein of 21 kDa only in flagellar membranes. Thus, sea urchin sperm contain a membrane protein that shares characteristics with mammalian Gs and four small G-proteins, including Ras . Gs, Gi and Ras are enriched in flagellar membranes while the other small G-proteins do not display a preferential distribution along the sea urchin sperm plasma membrane. The role of these G-proteins in sea urchin sperm is presently under investigation.     

Mitochondria from Zea mays leaf tissues: Differentiation of carbon assimilation and photorespiratory activity between mesophyll and bundle sheath cells

A procedure was developed to obtain intact and purified mitochondria from mesophyll and bundle sheath tissues of Zea mays L. cv. I.N.R.A. 180, an NADP⁺-malic enzyme type C₄ plant. There was little cross-contamination between the two mitochondrial fractions.
Both types of mitochondria oxidized NADH, succinate and malate with respiratory control. In mesophyll mitochondria malate oxidation was highly sensitive to KCN (85–90% inhibition of first state 3) and showed good respiratory control. In bundle sheath mitochondria malate oxidation was less sensitive to cyanide (75-80% inhibition) and showed poor respiratory control. Malate and NADH appeared to be the best substrates for respiratory activity. Mesophyil mitochondria could not oxidize glycine, whereas bundle sheath mitochondria could.
The results indicate that mesophyll and bundle sheath mitochondria of Zea mays are differentiated, not only with respect to the decarboxylation of malate but also with respect to the decarboxylation phase of photorespiration.     

Influence of auxin on phosphate absorption and metabolism of phosphorylated compounds in aged potato tuber discs (Solanum tuberosum)

Ageing of potato tuber discs markedly increases the rate of phosphate uptake. This increase is partially prevented by the presence of indoleacetic acid (IAA: 50 μ M ) in the ageing medium. ³²P distribution among the various phosphorylated fractions (P₁, organic soluble phosphate, acid-insoluble phosphate) was carried out after 24 h of ageing in the presence of IAA. An equal inhibition of the labelling rates of each of the different fractions is induced by the hormone. No important effect on respiration and ATP content was observed. Moreover, IAA neither changes the total phospholipid content nor the relative distribution of ³²P between the components. These results support the hypothesis that IAA acts specifically on the development of uptake mechanisms during the ageing period.     

THE EFFECT OF DEFICIENCY OF THIAMINE ON THE METABOLISM OF [U-14C]GLUCOSE AND [U-14C]RIBOSE AND THE LEVELS OF AMINO ACIDS IN RAT BRAIN

Abstract— The incorporation of ¹⁴C into amino acids of the brain was determined at different times after injection of [U-¹⁴C]glucose and [U-¹⁴C]ribose to rats maintained on thiamine-supplemented and thiamine-deficient diets for 22 days.
The ¹⁴C-content of amino acids in the brain of thiamine-deficient rats decreased at times 2–10 min after injection of [U-¹⁴C]glucose. but it increased at 2 min and decreased at times 5–10 min after injection of [U-¹⁴C]ribose.
The results of labelling of amino acids indicated that the activities in vivo of the thiamine pyrophosphate requiring enzymes, pyruvate oxidase, a-oxoglutarate dehydrogenase and transketolase were similar in the two groups. It was suggested that the observed decrease in the labelling of amino acids was due to one or more of the following factors: (i) a decrease in the activities of glycolytic enzymes catalysing the conversion of glucose into triose phosphate; (ii) a decrease in the transport of substrate to the active site of the enzymes; or (iii) altered neurohistopathology of the brain.
Thiamine deficiency in rats showed a 5% decrease in glutamate ( P < 0–05), 46% decrease in threonine (P < 0001) and 16% increase in glycine ( P < 0–01) content of the brain.     

On the Mode of Activation of Sequestered Messengers in Artemia salina

Activation of the dormant embryos of Artemia salina was marked by a rapid increase in ³²P uptake which reached a stationary phase after 6 h of activation. The increase in ³²P uptake by whole cysts was paralleled by its incorporation into nucleotides. Fractionation of acid-soluble nucleotides and alkaline hydrolysate of nucleic acids on Dowex-1-formate column revealed the ³²P radioactivity to be exclusively localised in AMP. Analysis of the labelled RNA species extracted at different stages of development indicated a preferential labelling of small molecular weight species till the emergence of the embryos, followed by the de novo synthesis of messenger and stable RNA species in later stages of development. During early development, polyadenylated RNA species were localised in the par-ticulate fraction sedimenting at 16,000 rpm and their location shifted to the soluble fraction as development proceeded. Activation of preformed messengers by phosphorylation of the adenylate residue of their poly A stretches and translocation of the capacitated messengers to the cytosol via a RNP-membrane complex is proposed as a trigger of embryonic differentiation.     

EFFECTS OF DENERVATION ON THE INCORPORATION OF 32P INTO PHOSPHATIDYL INOSITOL AND OTHER PHOSPHOLIPIDS OF RAT DIAPHRAGM

Abstract— At 24 h after denervation of the rat hemidiaphragm, incorporation of ³²P into phosphatidyl inositol was depressed relative to incorporation of ³²P into phosphatidyl choline (measured 75 min after injection of the isotope intraperitoneally). The ratio of the specific radioactivity of phosphatidyl choline to the specific radioactivity of P_i was unaffected by denervation which implies that denervation had depressed incorporation of isotope into phospatidyl inositol. Denervation did not cause a measurable change in the pool size of phosphatidyl inositol relative to that of phosphatidyl choline. The effect of denervation on incorporation of ³²P into phosphatidyl inositol was not entirely a direct consequence of the cessation of ACh release at the motor end-plate since the effect was clearly manifest in strips of muscle not containing motor end-plates, but the magnitude of the denervation effect was slightly greater in the strips of denervated hemidiaphragm which contained motor end-plates.     

NUCLEAR CHROMATIN PROTEINS FROM RABBIT CEREBRUM, CEREBELLUM AND LIVER: SYNTHESIS AND PHOSPHORYLATION

Abstract— In order to investigate synthesis and phosphorylation of the various fractions of nuclear proteins. [³H]leucine and [³²P] phosphate incorporation were studied with tissue slices in vitro. Cerebral cortex and cerebellum were used to delineate the similarity and dissimilarity within CNS, and liver was taken to compare the extraneural organ. There were significant differences in [³H]leucine incorporation into nuclear proteins among those tissue sources examined, while [³²P]phosphate incorporation showed very similar results among them. Although the acidic chromatin protein demonstrated high activity in each tissue source for both synthesis and phosphorylation, 0.14M-NaCl soluble protein showed the activity as high as or even higher than the acidic chromatin protein. Both [³H]leucine incorporation and [³²P]phosphate incorporation were relatively low in histone. When the acidic chromatin protein was further fractionated with SDS-acrylamide gel electrophoresis, significant difference was found between CNS tissue and liver for synthesis and phosphorylation. However, considerable difference was also observed even between cerebral cortex and cerebellum. The present investigation demonstrated complicity and diversity of nuclear chromatin proteins in different organs, not only for their protein constituents but also for their synthesis and phosphorylation.     

Acinar cell proliferation in the parotid and submandibular salivary glands of the neonatal rat

Abstract. Although the rat salivary glands are deficient in acini at birth, acinar cells proliferate rapidly during the early post-natal period. The pattern of acinar cell proliferation was analysed in the parotid and submandibular glands of neonatal rats from day of birth until day 34. Mitotic and [³H]thymidine ([³H]TdR) labelling indices of the two glands show distinctly different patterns. Analysis of cell division in the rat parotid gland demonstrated a peak of mitotic index at 14 days (2.9 ± 0.4%) and labelling index at 16 days (25.2 ± 2.1%). Submandibular gland acinar cell proliferation reaches a zenith between 7–8 days; labelling index (14.2 ± 1.1%) and mitotic index (2.3 ± 0.3%). Cell proliferation decreases rapidly in both glands after reaching a peak in activity. Gland size increases more rapidly in the submandibular gland which correlates with the earlier shift from cell proliferation to differentiation which occurs in this organ. Circadian rhythms of [³H]TdR incorporation were also investigated in this study. A circadian rhythm of [³H]TdR incorporation into DNA occurs at 15 days after birth with a peak at 06.00 hours in both glands and a trough occurring at 15.00 hours in parotid gland and 18.00 hours in the submandibular gland. Determination of specific activity of DNA (ct/min per μg DNA) on days 8, 10, 12, 13, 14, 15, and 16 after birth at 06.00 and 15.00 hours indicated that a circadian rhythm in [³H]TdR incorporation into DNA began on day 14. The developmental switch from suckling to solid food may be an initiating factor in the sychronization of the circadian rhythm in cell proliferation.     

A 30-kDa Protein in the Surface Complex and Flagella of Euglena has Protein Kinase Activity

ABSTRACT A protein kinase (PK) was partially purified from NaCl extracts of the cell surface complex of Euglena using DEAE-cellulose chromatography. Tubulins extracted either from flagella or from the cell surface complexes of Euglena were readily phosphorylated when incubated with [γ-³²P]-ATP and the PK. Protein kinase activity was augmented with 5 mM Mn²⁺ or Mg² and was inhibited or had greatly reduced activity with 5 mM Ca²⁺, Co^2-, Cu²⁺ or Zn²⁺. Incorporation was much lower when [γ-³²P]-GTP was the phosphate donor. Serine and threonine were the major radiolabeled phosphoamino acids in tubulins; label was also found in phosphotyrosine. Alpha-tubulin solubilized from flagella was a relatively poor substrate for the PK, but a Euglena α-tubulin cDNA overexpressed as a Trx-fusion protein incorporated [γ-³²P]-ATP into serine and threonine when incubated with cell surface extracts. Alpha- and β-tubulins from cell surface complexes were equally good substrates for the PK. No incorporation was observed in intact microtubules either from the cell surface complex or from isolated flagella. In-gel assays identified a polypeptide of about 30 kDa that phosphorylated tubulins in extracts of both flagella and the cell surface complexes, and dephosphorylated casein was a competitive substrate for the partially purified kinase. In vivo incubation with [³²P]-orthophosphate produced numerous radiolabeled bands in acrylamide gels of NaCl extracts of the cell surface complex, but none of these bands could be positively related to tubulins extracted from surface complex microtubules.     

Maintenance of the Adult Rat Superior Cervical Ganglion In Vitro: Comparison of Organ and Explant Culture Systems

Abstract: Concentrations of selected intermediates of energy metabolism whole rat superior cervical ganglia maintained in vitro by an organ culture technique were compared with values measured in small slices of this maintained under essentially the same conditions. Rates of incorporation [³H]leucine into trichloroacetic acid-precipitable material in whole ganglia mained constant for at least 48 h: however, the oxidation-reduction state tissue as indexed by (NAD):(NADH) ratios calculated from measured amounts of lactate and pyruvate decreased more than 50% within ³h in vitro . Ganglion explants prepared by cutting the tissue into ³⁰⁰-pm transverse sections played (NAD):(NADH) ratios that were about three times greater than noted in whole ganglia maintained in vitro for the same period of time. explants contained significantly higher concentrations of pyruvate and α-ketoglutarate than whole ganglia maintained in culture. Maintenance of vorable metabolic state may support the extensive growth of neurites seen explant cultures of superior cervical ganglia. Outgrowth of processes containing catecholamines could be detected readily in explant cultures of ganglia adult rats; however, this was somewhat slower and less consistent than growth observed in explants from neonatal rats. Outgrowth of neurites adult ganglia was minimal without the addition of Nerve Growth Factor.     

COMPARTMENTATION AND LABELLING OF AMINO ACIDS IN THE DEVELOPING RAT BRAIN AFTER INJECTION OF [U-14C]RIBOSE

Abstract— [U-¹⁴C]Ribose was given by subcutaneous injection to young rats aged 2–56 days. During the first week after birth ¹⁴C in the brain was found mainly combined in glucose, fructose and sedoheptulose which contained 46–57 per cent of the ¹⁴C in the acid soluble metabolites in the rat brain. In contrast, during the critical period (10–15 days after birth) the ¹⁴C in the free sugars decreased from 24 to 3 per cent, while the ¹⁴C content of amino acids in the brain increased from 11 to 44 per cent of the total perchloric acid-soluble ¹⁴C. The increase in labelling of amino acids during the critical period was attributed to increased glycolysis and increased oxidation of pyruvate. The relative specific radioactivity of y -aminobutyrate and aspartate in the rat brain at 28 days after birth was equal to or greater than the relative specific radioactivity of glutamate. Assuming that the increase in amino acid content following the cessation of cell proliferation in the brain is located mainly in cell processes (cytoplasm of axons, dendrites, glial processes and nerve terminals), tentative values were estimated for the pool sizes of glutamate, glutamine, aspartate and y -amino butyrate.     

Phosphorus translocation in salt-stressed cotton

The effect of salinity on plants has usually been studied at high inorganic P concentration ([Pi]) in the nutrient solution, and salinity × Pi interactions have been examined at much higher [Pi] than found in soil solutions. Short-term ³²Pi experiments were carried out to study the effect of salinity (150 m M NaCl) on phosphorus translocation in cotton plants ( Gossypium hirsutum L. cv. Acala SJ-2) grown in nutrient solutions containing 10 μ M [Pi]. The effect of additional Ca to a concentration of 10 μ M was also tested. Salinity inhibited ³²P translocation from root to shoot. This inhibition was more evident at higher [Pi] in the root medium. Increasing [Pi] 33-fold in the solution resulted in a 4.3-fold increase in [³²P] in the root under saline conditions, but only in a 1,8-fold increase in the shoot. In older shoot tissues total [P] was elevated in the salinized plants. In the young tissues, however, total P concentration was higher in control plants. Inhibition of ³²P translocation by salinity was greater from root to young leaves than to mature shoot tissues. Salinity also decreased ³²P recirculation from the cotyledons to the young leaf. Inhibition by salinity of both ³²P translocation and recirculation to young leaves was fully reversed by increasing Ca supply from 1 to 10     

Alteration of Tubulin-Gi Protein Interaction in Rat Cerebral Cortex with Aging

Abstract: The ability of the tubulin dimer to interact with and to modulate the G_i function inhibiting adenylyl cyclase was examined in cerebral cortex membranes from 2-month-old and 24-month-old rats. The hydrolysis-resistant GTP analogue 5'-guanylylimidodiphosphate (GppNHp)-dependent inhibition of adenylyl cyclase was significantly decreased in cerebral cortex membranes from 24-month-old rats. Tubulin, prepared from rat brains by polymerization with GppNHp, caused inhibition of adenylyl cyclase (∼28%) in 2-month-old rats. Tubulin-GppNHp-dependent inhibition of adenylyl cyclase in 24-month-old rats was significantly attenuated (∼15%). In 2-month-old rats, when tubulin, polymerized with the hydrolysis-resistant photoaffinity GTP analogue [³²P] P ³(4-azidoanilido)- P ¹-5'-GTP ([³²P]AAGTP), was incubated with cerebral cortex membranes, AAGTP was transferred from tubulin to G_iα. Transfer of AAGTP from tubulin to G_iα was reduced in 24-month-old rats. Furthermore, photoaffinity labeling of [³²P]AAGTP to G_iα in cortex membranes was significantly decreased in 24-month-old rats. No differences were observed in the amounts of G_sα, G_iα, or G_β subunits and tubulin, estimated by immunoblotting, in cortex membranes from 2-month-old and 24-month-old rats. These results suggest that the ability of tubulin to interact with G_i and thereby modulate the inhibitory regulation of adenylyl cyclase is reduced in the cerebral cortex of 24-month-old rats.     

Receptor-mediated increases in phosphatidylinositol turnover in neuron-like cell lines

Abstract: Muscarinic receptors found in the N IE-115 mouse neuroblastoma cell line were tested for their ability to mediate stimulation of phosphatidylinositol (PI) turnover. This study was facilitated by the development of a new solvent system (acetone: butanol: acetic acid: water, 5: 5: 1: 1) for the rapid and consistent separation of PI by one-dimensional thin-layer chromatography. Cholinergic stimulation caused as much as a 680% increase in the incorporation of ³²P into PI. Enhanced incorporation of ³²P into PI could be measured as early as 4 min after stimulation began. By 20 min, the rate of incorporation by stimulated cells had decreased to that of unstimulated cells, indicating desensitization. The magnitude of the response was dependent on the extent of receptor occupancy and the response elicited by a saturating dose of carbamylcholine was blocked completely by 10⁻⁷ M at-ropine, a specific muscarinic antagonist. Chronic stimulation, known to cause a loss of receptor binding sites, led to a 90% decrease in the maximum response even after a 40-min withdrawal period. Replacement of Na⁺ ions in the medium with choline or K⁺ severely impaired the ability of the cells to incorporate added ³²P into PI (90 and 50%, respectively). Removal of the putative second messenger Ca²⁺ for short periods of time by the addition of excess EGTA did not alter either basal or muscarinic-stimulated PI turnover.