Sustained Nicotine Exposure Differentially Affects α3β2 and α4β2 Neuronal Nicotinic Receptors Expressed in Xenopus Oocytes

Abstract: To determine whether prolonged exposure to nicotine differentially affects α3β2 versus α4β2 nicotinic receptors expressed in Xenopus oocytes, oocytes were coinjected with subunit cRNAs, and peak responses to agonist, evoked by 0.7 or 7 µ M nicotine for α4β2 and α3β2 receptors, respectively, were determined before and following incubation for up to 48 h with nanomolar concentrations of nicotine. Agonist responses of α4β2 receptors decreased in a concentration-dependent manner with IC₅₀ values in the 10 n M range following incubation for 24 h and in the 1 n M range following incubation for 48 h. In contrast, responses of α3β2 receptors following incubation for 24–48 h with 1,000 n M nicotine decreased by only 50–60%, and total ablation of responses could not be achieved. Attenuation of responses occurred within the first 5 min of nicotine exposure and was a first-order process for both subtypes; half-lives for inactivation were 4.09 and 2.36 min for α4β2 and α3β2 receptors, respectively. Recovery was also first-order for both subtypes; half-lives for recovery were 21 and 7.5 h for α4β2 and α3β2 receptors, respectively. Thus, the responsiveness of both receptors decreased following sustained exposure to nicotine, but α4β2 receptors recovered much slower. Results may explain the differential effect of sustained nicotine exposure on nicotinic receptor-mediated neurotransmitter release.     

Inhibition of Tyrosine Aminotransferase by β-N-Oxalyl-l-α,β-Diaminopropionic Acid, the Lathyrus sativus Neurotoxin

Abstract: Species differences in susceptibility are a unique feature associated with the neurotoxicity of β-N-oxalyl-l -α,β-diaminopropionic acid (l -ODAP), the Lathyrus sativus neurotoxin, and the excitotoxic mechanism proposed for its mechanism of toxicity does not account for this feature. The present study examines whether neurotoxicity of l -ODAP is the result of an interference in the metabolism of any amino acid and if it could form the basis to explain the species differences in susceptibility. Thus, Wistar rats and BALB/c (white) mice, which are normally resistant to l -ODAP, became susceptible to it following pretreatment with tyrosine (or phenylalanine), exhibiting typical neurotoxic symptoms. C57BL/6J (black) mice were, however, normally susceptible to l -ODAP without any pretreatment with tyrosine. Among the various enzymes associated with tyrosine metabolism examined, the activity of only tyrosine aminotransferase (TAT) was inhibited specifically by l -ODAP. The inhibition was noncompetitive with respect to tyrosine (K_i = 2.0 ± 0.1 mM) and uncompetitive with respect to α-ketoglutarate (K_i = 8.4 ± 1.5 mM). The inhibition of TAT was also reflected in a marked decrease in the rate of oxidation of tyrosine by liver slices, an increase in tyrosine levels of liver, and also a twofold increase in the dopa and dopamine contents of brain in l -ODAP-injected black mice. The dopa and dopamine contents in the brain of only l -ODAP-injected white mice did not show any change, whereas levels of these compounds were much higher in tyrosine-pretreated animals. Also, the radioactivity associated with tyrosine, dopa, and dopamine arising from [¹⁴C]tyrosine was twofold higher in both liver and brain of l -ODAP-treated black mice. Thus, a transient increase in tyrosine levels following the inhibition of hepatic TAT by l -ODAP and its increased availability for the enhanced synthesis of dopa and dopamine and other likely metabolites (toxic?) resulting therefrom could be the mechanism of neurotoxicity and may even underlie the species differences in susceptibility to this neurotoxin.     

α-Secretase-Derived Product of β-Amyloid Precursor Protein Is Decreased by Presenilin 1 Mutations Linked to Familial Alzheimer's Disease

Abstract: Recent reports indicate that missense mutations on presenilin (PS) 1 are likely responsible for the main early-onset familial forms of Alzheimer's disease (FAD). Consensual data obtained through distinct histopathological, cell biology, and molecular biology approaches have led to the conclusion that these PS1 mutations clearly trigger an increased production of the 42-amino-acid-long species of β-amyloid peptide (Aβ). Here we show that overexpression of wild-type PS1 in HK293 cells increases Aβ40 secretion. By contrast, FAD-linked mutants of PS1 trigger increased secretion of both Aβ40 and Aβ42 but clearly favor the production of the latter species. We also demonstrate that overexpression of the wild-type PS1 augments the α-secretase-derived C-terminally truncated fragment of β-amyloid precursor protein (APPα) recovery, whereas transfectants expressing mutated PS1 secrete drastically lower amounts of APPα when compared with cells expressing wild-type PS1. This decrease was also observed when comparing double transfectants overexpressing wild-type β-amyloid precursor protein and either PS1 or its mutated congener M146V-PS1. Altogether, our data indicate that PS mutations linked to FAD not only trigger an increased ratio of Aβ42 over total Aβ secretion but concomitantly down-regulate the production of APPα.     

The loop between β-strands β2 and β3 and its interaction with the N-terminal α-helix is essential for biogenesis of α7 nicotinic receptors

Recently, we have shown that the α-helix present at the N-termini of α7 nicotinic acetylcholine receptors plays a crucial role in their biogenesis. Structural data suggest that this helix interacts with the loop linking β-strands β2 and β3 (loop 3). We studied the role of this loop as well as its interaction with the helix in membrane receptor expression. Residues from Asp62 to Val75 in loop 3 were mutated. Mutations of conserved amino acids, such as Asp62, Leu65 and Trp67 abolished membrane receptor expression in Xenopus oocytes. Others mutations, at residues Asn68, Ala69, Ser70, Tyr72, Gly74, and Val 75 were less harmful although still produced significant expression decreases. Steady state levels of wild-type and mutant α7 receptors (L65A, W67A, and Y72A) were similar but the formation of pentameric receptors was impaired in the latter (W67A). Mutation of critical residues in subunits of heteromeric nicotinic acetylcholine receptors (α3β4) also abolished their membrane expression. Complementarity between the helix and loop 3 was evidenced by studying the expression of chimeric α7 receptors in which these domains were substituted by homologous sequences from other subunits. We conclude that loop 3 and its docking to the α-helix is an important requirement for receptor assembly.     

β-Synuclein occurs in vivo in lipid-associated oligomers and forms hetero-oligomers with α-synuclein

α-synuclein (αS) and β-synuclein (βS) are homologous proteins implicated in Parkinson's disease and related synucleinopathies. While αS is neurotoxic and its aggregation and deposition in Lewy bodies is related to neurodegeneration, βS is considered as a potent inhibitor of αS aggregation and toxicity. No mechanism for the neuroprotective role of βS has been described before. Here, we report that similar to αS, βS normally occurs in lipid-associated, soluble oligomers in wild-type (WT) mouse brains. We partially purified βS and αS proteins from whole mouse brain by size exclusion followed by ion exchange chromatography and found highly similar elution profiles. Using this technique, we were able to partially separate βS from αS and further separate βS monomer from its own oligomers. Importantly, we show that although αS and βS share high degree of similarities, βS oligomerization is not affected by increasing cellular levels of polyunsaturated fatty acids (PUFAs), while αS oligomerization is dramatically enhanced by PUFA. We show the in vivo occurrence of hetero-oligomers of αS and βS and suggest that βS expression inhibits PUFA-enhanced αS oligomerization by forming hetero-oligomers up to a quatramer that do not further propagate.     

Characterization of spinach leaf α-l-arabinofuranosidases and β-galactosidases and their synergistic action on an endogenous arabinogalactan-protein

Two β-galaclosidases (β-Galase-I and -II, EC 3.2.1.23) and two α-l -arabinofuranosidases (α-l -Arafase-I and -II. EC 3.2.1.55). were purified from mesophyll tissues of spinach (Spinacia oleracea L.), using chromatography on DEAE-cellulose, lactose-conjugated Sepharose CL-4B, and Sephadex G-100, or on hydroxylapatite and Sephadex G-150. The apparent molecular mass (M_r) of β-Galase-I and -II, respectively, were estimated to be 38 000 and 58 000 on SDS-PAGE and 64 000 and 60 000 on gel-permeation chromatography, indicating that the former was a dimeric protein. The isoelectric points of β-Galase-I and -II were 6.9 and 5.2, respectively. Both enzymes hydrolyzed maximally p-nitrophenyl (PNP) β-galactoside at pH 4.3, and were activated about 2-fold in the presence of BSA (100 μg ml^?1). The activity of both enzymes was inhibited strongly by heavy metal ions and p-chloromercuriberszoate (p-CMB). d -Galactono-(1→4)-lactone and d -galactal served as potent competitive inhibitors for the enzymes. β-Galase-I and -II could be distinguished from each other in their relative rates and kinetic properties in the hydrolysis of aryl β-galactosides as well as of lactose and galacto-oligosaccharides. In particular. β-Galase-I exhibited a preferential exowise cleavage of β-1,6-galactotriose and β-1.3-galactan. α-l -Arafase-l (M_r 118000) and -II (M, 68 000) were optimally active on PNP α-l -arabinofuranoside at pH 4.8 and gave K_m values of 1.2 and 2.2 mM. respectively. l -Arabino-(1 → 4)-lactone. Ag⁺, and SDS acted as inhibitors for the isozymes. α-l Arafase-I was characterized by its activity to hydrolyze PNP β-d -xylopyranoside besides PNP α-l -arabinofuranoside. inhibition by d -xylose and d -glucono-(1 → 5)-lactone. and less sensitivity to Hg²⁺. Cu²⁺, and p-CMB. Sugar beet arabinan was hydrolyzed rapidly by α-l Arafase-II at one-half the rate for PNP α-l arabinofuranoside, while the polysaccharide was less susceptible to α-l Arafase-I. A spinach leaf arabinogalactan-protein was practically resistant to the action of β-Galases, but its susceptibility to the enzymes increased remarkably after prior hydrolysis with α-l Arafase-Il.     

Dorsal Root Ganglia-Specific Expression of the β-Galactoside α1,2-Fucosyltransferase Genes in Rabbits

Abstract: The neurons of dorsal root ganglia (DRG) mediate several sensation modalities. The carbohydrate antigens on DRG neurons differ with the sensation modalities that subsets of neurons convey. Despite the important roles of gangliosides and glycoproteins in neuronal differentiation and neuritogenesis of the mammalian nervous system, little is known about the mechanisms underlying the regulation of glycosylation. We previously demonstrated the expression of H-blood type antigens (Fucα1, 2Galβ) on rabbit DRG neurons of small diameter and dramatic changes in H antigens during the perinatal period. To investigate the possible biological roles and regulatory mechanisms of H antigens, we recently cloned three types of rabbit α1,2-fucosyltransferase gene that catalyze the biosynthesis of H antigens. Here, we analyze the expression of these genes, RFT-I, II, and III, in rabbit DRG. The H-type α1,2-fucosyltransferase gene, RFT-I, was expressed in DRG in late embryos to adult rabbits, as detected on northern blotting. The other two secretor-type α1,2-fucosyltransferase genes, RFT-II and III, were observed to be expressed in late embryonic DRG on RTPCR analysis but were not detectable on northern blotting. The expression of the H-type α1,2-fucosyltransferase gene was analyzed by in situ hybridization and was found to be abundant in small-diameter DRG neurons. These results indicate that the H-type α1,2-fucosyltransferase gene plays a major role in the regulation of the H antigen expression in DRG during the perinatal period.     

The α5(H105R) mutation impairs α5 selective binding properties by altered positioning of the α5 subunit in GABAA receptors containing two distinct types of α subunits

GABA_A receptors are pentameric ligand-gated ion channels that are major mediators of fast inhibitory neurotransmission. Clinically relevant GABA_A receptor subtypes are assembled from α5(1-3, 5), β1-3 and the γ2 subunit. They exhibit a stoichiometry of two α, two β and one γ subunit, with two GABA binding sites located at the α/β and one benzodiazepine binding site located at the α/γ subunit interface. Introduction of the H105R point mutation into the α5 subunit, to render α5 subunit-containing receptors insensitive to the clinically important benzodiazepine site agonist diazepam, unexpectedly resulted in a reduced level of α5 subunit protein in α5(H105R) mice. In this study, we show that the α5(H105R) mutation did not affect cell surface expression and targeting of the receptors or their assembly into macromolecular receptor complexes but resulted in a severe reduction of α5-selective ligand binding. Immunoprecipitation studies suggest that the diminished α5-selective binding is presumably due to a repositioning of the α5(H105R) subunit in GABA_A receptor complexes containing two different α subunits. These findings imply an important role of histidine 105 in determining the position of the α5 subunit within the receptor complex by determining the affinity for assembly with the γ2 subunit.     

Antibodies Specific for α-N-Acetyl-β-Endorphins: Radioimmunoassays and Detection of Acetylated β-Endorphins in Pituitary Extracts

Abstract: Antibodies specific for α-N-acetyl-β-endorphins have been prepared by injecting into rabbits either α-N-acetyl-β-endorphin(1-31) or [α-N-acetyl, ε-acetyl-Lys⁹]-β-endorphin(1-9) linked by carbodiimide to bovine thyroglobulin. Both antisera were used to develop specific radioimmunoassays for α-N-acetyl-β-endorphins. The radioimmunoassays were used to measure α-N-acetylated β-endorphins in extracts of pituitary regions from different species. By comparison of the amounts of total β-endorphin and α-N-acetyl-β-endorphin immunoreactivity, a relative ratio of β-endorphin acetylation was obtained. The relative acetylation of β-endorphin was highest in rat posterior-intermediate lobe extracts (>90%). Beef and monkey intermediate lobes had a lower degree of acetylation (53 and 31%, respectively). Anterior lobe extracts from all three species contained low amounts of acetylated β-endorphin. Human pituitary extracts did not contain acetylated β-endorphins. By the use of cation exchange and high performance liquid chromatography, six different acetylated derivatives and fragments of β-endorphin were resolved in extracts of rat posterior-intermediate pituitaries. Two of these peptides corresponded to α-N-acetyl-β-endorphin(1-31) and -(1-27). One acetylated β-endorphin fragment had the same size as α-N-acetyl-β-endorphin(1-27) but was eluted earlier from the cation exchange column. This peptide had full cross-reactivity with antibodies directed against the middle and amino-terminal parts of β-endorphin. Compared with α-N-acetyl-β-endorphin(1-27), it had much less cross-reactivity with antibodies directed against the COOH-terminal part of β-endorphin, suggesting that it was a COOH-terminally modified derivative of β-endorphin(1-27). The remaining N-acetylated β-endorphin derivatives were eluted even earlier from the cation exchange column. The majority of these fragments were slightly larger in size than y-endorphin, i.e., β-endorphin(1-17), but smaller than β-endorphin(1-27). They had full cross-reactivity in an amino-terminally directed β-endorphin radioimmunoassay and a greatly diminished cross-reactivity with antibodies to the middle region of β-endorphin.     

α2-Macroglobulin as a β-Amyloid Peptide-Binding Plasma Protein

Abstract: The β-amyloid peptide (Aβ) is a normal proteolytic processing product of the amyloid precursor protein, which is constitutively expressed by many, if not most, cells. For reasons that are still unclear, Aβ is deposited in an aggregated fibrillar form in both diffuse and senile plaques in the brains of patients with Alzheimer's disease (AD). The factor(s) responsible for the clearance of soluble Aβ from biological fluids or tissues are poorly understood. We now report that human α₂-macroglobulin (α₂M), a major circulating endoproteinase inhibitor, which has recently been shown to be present in senile plaques in AD, binds ¹²⁵I-Aβ_(1–42) with high affinity (apparent dissociation constant of 3.8 × 10^?10M). Approximately 1 mol of Aβ is bound per mole of α₂M. Both native and methylamine-activated α₂M bind ¹²⁵I-Aβ_(1–42). The binding of ¹²⁵I-Aβ_(1–42) to α₂M is enhanced by micromolar concentrations of Zn²⁺ (but not Ca²⁺) and is inhibited by noniodinated Aβ_(1–42) and Aβ_(1–40) but not by the reverse peptide Aβ_(40-1) or the cytokines interleukin 1β or interleukin 2. α₁-Antichymotrypsin, another plaque-associated protein, inhibits both the binding of ¹²⁵I-Aβ_(1–42) to α₂M as well as the degradation of ¹²⁵I-Aβ_(1–42) by proteinase-activated α₂M. Moreover, the binding of ¹²⁵I-Aβ_(1–42) to α₂M protects the peptide from proteolysis by exogenous trypsin. These data suggest that α₂M may function as a carrier protein for Aβ and could serve to either facilitate or impede clearance of Aβ from tissues such as the brain.     

Effect of GM-CSF on cytokine induction by soluble β-glucan SCG in vitro in β-glucan-treated mice

SCG is a 6-branched 1,3-β- d -glucan, which are major cell wall structural components in fungi. Leukocytes from DBA/1 and DBA/2 mice are highly sensitive to SCG, producing cytokines such as GM-CSF, IFN-γ, TNF-α and IL-12p70, but not IL-6. GM-CSF plays a key biological role in this activity. In the present study, we examined the effect of giving i.p. SCG to DBA/2 mice on cytokine production in vitro . SCG was given i.p. to DBA/2 mice on day 0. Splenocytes were prepared on day 7 and cultured in the presence of SCG in vitro . The levels of cytokine production induced by SCG in vitro were lower in the cells from SCG-treated mice than in control mice. Expression of the β-glucan receptor, dectin-1, in SCG-treated mice was comparable with that shown in control mice. However, the consumption of exogenously added rmGM-CSF in vitro was observed in SCG-treated mice. The addition of a large amount of rmGM-CSF to the culture medium resulted in larger amounts of TNF-α and IL-6 in SCG-treated mice than in normal mice. These results suggested that GM-CSF was closely related with the reactivity of β-glucan. Giving SCG increased the number of macrophages and granulocytes in the spleen. These results suggested that in SCG-treated mice, a change of cell population would be related to modulation of the profile of cytokine production induced by SCG in vitro .     

α2-Macroglobulin Attenuates β-Amyloid Peptide 1–40 Fibril Formation and Associated Neurotoxicity of Cultured Fetal Rat Cortical Neurons

Abstract: β-Amyloid peptides (Aβ) are deposited in an aggregated fibrillar form in both diffuse and senile plaques in the brains of patients with Alzheimer's disease. The neurotoxicity of Aβ in cultured neurons is dependent on its aggregation state, but the factors contributing to aggregation and fibril formation are poorly understood. In the present study, we investigated whether α₂-macroglobulin (α₂M), a protein present in neuritic plaques and elevated in Alzheimer's disease brain, is a potential regulatory factor for Aβ fibril formation. Previous studies in our laboratory have shown that α₂M is an Aβ binding protein. We now report that, in contrast to another plaque-associated protein, α₁-antichymotrypsin, α₂M coincubated with Aβ significantly reduces aggregation and fibril formation in vitro. Additionally, cultured fetal rat cortical neurons are less vulnerable to the toxic actions of aged Aβ following pretreatment with α₂M. We postulate that α₂M is able to maintain Aβ in a soluble state, preventing fibril formation and associated neurotoxicity.     

Convulsive Activity of α-Guanidinoglutaric Acid and the Possible Involvement of 5-Hydroxytryptamine in the α-Guanidinoglutaric Acid-Induced Seizure Mechanism

alpha-Guanidinoglutaric acid (alpha-GGA) was first found in cobalt-induced epileptogenic focus tissue in the cerebral cortex of cats. We examined the effect of alpha-GGA on the electroencephalogram and on the brain 5-hydroxytryptamine (5-HT) level after intraventricular administration into rats. Sporadic low-voltage spikes appeared 4 min after the administration of alpha-GGA. Spikes increased in voltage 6 min after the administration. Multiple spikes appeared 10 min after the administration, and they reached maximal frequency 30 min after the administration. The epileptic discharges disappeared 100 min after the administration. The 5-HT level increased in the right and left cortices 3 min after the administration. The 5-HT level decreased in the mid-brain 5 min after the administration and subsequently in all regions of the brain 10 min after the administration. No change in the 5-HT level was found 30 min and 100 min after the administration. These results show that alpha-GGA induces epileptic seizures in rats after intraventricular administration. The results also suggest that alpha-GGA-induced seizures are associated with abnormal serotonergic function and that they are initiated by a decrease in the 5-HT level.     

Immunohistochemical Localization of G Protein β1, β2, β3, β4, β5, and γ3 Subunits in the Adult Rat Brain

Abstract: The regional distributions of the G protein β subunits (Gβ1–β5) and of the Gγ3 subunit were examined by immunohistochemical methods in the adult rat brain. In general, the Gβ and Gγ3 subunits were widely distributed throughout the brain, with most regions containing several Gβ subunits within their neuronal networks. The olfactory bulb, neocortex, hippocampus, striatum, thalamus, cerebellum, and brainstem exhibited light to intense Gβ immunostaining. Negative immunostaining was observed in cortical layer I for Gβ1 and layer IV for Gβ4. The hippocampal dentate granular and CA1–CA3 pyramidal cells displayed little or no positive immunostaining for Gβ2 or Gβ4. No anti-Gβ4 immunostaining was observed in the pars compacta of the substantia nigra or in the cerebellar granule cell layer and Purkinje cells. Immunoreactivity for Gβ1 was absent from the cerebellar molecular layer, and Gβ2 was not detected in the Purkinje cells. No positive Gγ3 immunoreactivity was observed in the lateral habenula, lateral septal nucleus, or Purkinje cells. Double-fluorescence immunostaining with anti-Gγ3 antibody and individual anti-Gβ1–β5 antibodies displayed regional selectivity with Gβ1 (cortical layers V–VI) and Gβ2 (cortical layer I). In conclusion, despite the widespread overlapping distributions of Gβ1–β5 with Gγ3, specific dimeric associations in situ were observed within discrete brain regions.     

The occurrence of β-galactosidase and β-phosphogalactosidase in Lactobacillus casei strains

Abstract Several strains of Lactobacillus casei of different origins were compared and it was observed that lactose metabolism varied from one strain to the other. Certain strains contained a β-galactosidase, others a β-phosphogalactosidase and others contain both. It was shown that the activities present in these last strains are catalyzed by two proteins differing in their electrophoretic mobilities and M _r values. Genetic divergence of the studied strains is considered.     

Expression of the β-Galactoside α1,2-Fucosyltransferase Gene Suppresses Axonal Outgrowth of Neuro2a Neuroblastoma Cells

Abstract: The axonal outgrowth of cells of Neuro2a, a mouse neuroblastoma cell line, was suppressed on expression of the β-galactoside α1,2-fucosyltransferase (α1,2-FT) gene. We recently cloned two types of rabbit α1,2-FT, RFT-I and RFT-II. RFT-I exhibits comparable kinetic properties and structural homology with human H gene α1,2-FT, and RFT-II shows comparable kinetic parameters with human Se gene α1,2-FT. Neuro2a cells expressing RFT-I (N2A-RFT-I) contained a large amount of fucosyl GM1 instead of GM1 and GD1a, major gangliosides in the parent Neuro2a cells, whereas Neuro2a cells expressing RFT-II (N2A-RFT-II) showed a subtle change in the ganglioside pattern. N2A-RFT-II and parent Neuro2a cells showed axonal outgrowth in serum-free medium on the exogenous addition of GM1, whereas N2A-RFT-I cells exhibited multiple neurite sprouts but not axonal outgrowth. This phenotype was fully recovered by N2A-RFT-I cells on the addition of d - threo -1-phenyl-2-decanoylamino-3-morpholino-1-propanol and α- l -fucosidase to the culture medium, which resulted in pronounced reduction of fucosyl GM1 expression. These results suggested that expression of H-type α1,2-FT, and subsequent incorporation of fucose into glycolipids and glycoproteins, especially the formation of fucosyl GM1, modifies the response of neuronal cells to stimuli that induce axonal extension.     

A monoclonal antibody against T-cell receptor αβ induces endogenous cytokines and prevents mice from a lethal infection with Listeria monocytogenes

Abstract In vivo induction of cytokines by a monoclonal antibody (mAb) against T-cell receptor (TCR) αβ and the protective effect induced by the mAb on a lethal infection with Listeria monocytogenes were studied. Injection of anti-TCR αβ mAb induced rapid production of endogenous tumour necrosis factor in the spleens, and gamma interferon and interleukin-6 in the bloodstreams and spleens of mice. Administration of anti-CD4 mAb, anti-CD8 mAb, or anti-Thy1.2 mAb resulted in suppression of anti-TCR αβ mAb-induced endogenous cytokine production. Mice were protected against lethal L. monocytogenes infection when treated with anti-TCR αβ mAb. The protective effect was not demonstrated in CD4 + cell- or CD8 + cell-depleted mice. These results suggest that anti-TCR αβ mAb shows a protective effect on a lethal infection with L. monocytogenes in mice and that the mAb-induced endogenous cytokines might be involved in the effect of anti-TCR αβ mAb.     

5-Hydroxytryptamine Amplifies β-Adrenergic Stimulation of N-Acetyltransferase Activity in Rat Pinealocytes

In cultured rat pinealocytes beta-adrenergic induction of N-acetyltransferase, a key enzyme in the synthesis of melatonin, is amplified by addition of 5-hydroxytryptamine (5-HT) to the culture medium. However, 5-HT when added alone has no effect on enzyme activity. Pharmacological experiments with a range of agonists and antagonists suggest that this action is not mediated by 5-HT1, 5-HT2, 5-HT3, or 5-HT4 receptor subtypes but may involve a site similar to the 5-HT1p receptor described in the enteric nervous system. The potential role of 5-HT in modulating adrenergic stimulation of N-acetyltransferase activity is discussed.     

Regulation of δ-(L-α-aminoadipyl)-l-cysteinyl-d-valine and isopenicillin N biosynthesis in Penicillium chrysogenum by the α-aminoadipate pool size

The effect of changes in the intracellular concentration of alpha-aminoadipate on the formation of alpha-aminoadipyl-cysteinyl-valine (ACV) and isopenicillin N (IPN)--two intermediates of penicillin biosynthesis--by strains of Penicillium chrysogenum has been investigated by measuring the incorporation of radioactivity from (6-14C)-alpha-aminoadipate into cellular 14C-ACV and 14C-IPN. No ACV or IPN were found in any strain during cultivation on glucose, but were clearly detected in all three strains during growth on lactose, displaying increased formation in strains exhibiting increased penicillin productivity and increased intracellular alpha-aminoadipate pools. ACV and IPN formation was affected by subjected P. chrysogenum mycelia to either general amino acid control (by addition of amitrol) or by exogenous addition of 5 mM L-lysine. In all cases, the changes observed paralleled the changes in the intracellular alpha-aminoadipate pool. These results are consistent with the alpha-aminoadipate pool limiting the biosynthesis of ACV and IPN and hence penicillin biosynthesis in the present strains of P. chrysogenum.