Effects of opioid peptides and naloxone on tissue from the central and peripheral nervous system in culture

A study was made of the effects of opioid peptides (leu-enkephalin and dalargin AE-1, its synthetic analog) and of naloxone, an opiate receptor blocker, on organotypic cultures of spinal cord and spinal ganglia cells. The cellular composition and size of explant outgrowth was estimated according to in vitam morphological observations. It was found that all the opioid peptides tested at concentrations of 10^–9-10^–10M exercise a clear-cut growth-promoting effect on cultures from the spinal cord as well as those from the peripheral nervous system [4, 5]. Naloxone at a concentration of 10^–5-10^–6 M does not block peptide action, but itself stimulates growth. It was also proved that opioid peptides act as trophic factors for spinal ganglia nerve cells, increasing their survival in culture. Endorphins can thus serve as growth factors for tissues of the peripheral as well as the central nervous system. The likely processes lying at the root of the growth-promoting and trophic effects of endorphins on nerve tissue are discussed.Institute of Experimental Cardiology of the All-Union Cardiological Research Center, Academy of Medical Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 18, No. 2, pp. 227–233, March–April, 1986.     

Influence of opioid peptides on nerve tissue in vitro

The influence of opioid peptides (gamma- and beta-endorphins, leu- and met-enkephalins, as well as certain synthetic analogs of enkephalin) was investigated on organotypic cultures of rat spinal and sympathetic ganglia. The cellular composition and size of the zone of growth were evaluated on the basis of intravital observations and an analysis of the specimen obtained using the method of impregnation, according to Holmes and the detection of catecholamines with glyoxylic acid. It was established that under the action of all the investigated substances that possess high affinity for opiate receptors, growth of the neurites from an explant was enhanced, and the number of glial and fibroblastoid cells in the growth zone was increased. The effect was observed most distinctly on a model of sympathetic ganglia. The tested compounds exhibited a significant growth-stimulating effect in the range of concentrations 10^–8–10^–14 M. The maximum size of the growth zone of the explants of the sympathetic ganglia in the case of a mean effective concentration of the peptides 10^–10 M by the third to fifth day of culturing was approximately 2–2.5 times this value in the control. The reaction was similar to the response of the nerve cells to nerve growth factor, used as a standard. Thus, the opioid peptides exhibit a pronounced growth effect on the structures of the nerve tissue under conditions of culture. It is suggested that this group of compounds, together with its currently well-known functions, may play a definite role in processes of the development and regenera-of nerve tissue.Institute of Experimental Cardiology, All-Union Cardiologic Science Center, Academy of Medical Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 17, No. 4, pp. 550–557, July–August, 1985.     

Location of efferent sympathetic neurons and afferent neurons in spinal ganglia innervating the heart

Location and numbers of neurons associated with sympathetic innervation of the heart within the right stellate and accessory cervical ganglia, the spinal cord, and spinal ganglia were investigated using horseradish peroxidase retrograde axonal transport techniques in cats. The enzyme was applied to central sections of the anastomosis of the stellate ganglion with the vagus nerve, the inferior cardiac nerve, and the vagosympathetic trunk caudal to the anastomosis. Labeled neurons within the stellate ganglion were located close to the point of departure of the nerves and more thinly distributed in the accessory cervical ganglion. A group of labeled cells was found in the anastomosis itself. Preganglionic neurons associated with sympathetic innervation of the heat were detected at segmental levels T₁–T₅ in the spinal cord. Labeled neurons were diffusely located in the spinal ganglia, concentrated mainly at levels T₂–T₄.Medical Institute, Ministry of Public Health of the RSFSR, Yaroslavl'. Translated from Neirofiziologiya, Vol. 21, No. 1, pp. 106–111, January–February, 1989.     

Quantitative fluorescence studies of the effects of catecholamines and hydrocortisone on endogenous amine levels in neurones and small intensely fluorescent cells of embryonic chick sympathetic ganglia in vivo and in vitro

Summary Chick embryo lumbar sympathetic ganglia (11 day) cultured for three days and uncultured (in vivo) ganglia of comparable age were freeze-dried and processed by the formaldehyde-induced fluorescence technique for the demonstration of biogenic monoamines. The catecholamine levels within principal neurone cell bodies and small intensely fluorescent (SIF) cells were then examined in plastic sections of the in vivo and in vitro ganglia by a quantitative fluorescence method under various experimental conditions. Culture of ganglia for three days in the presence of hydrocortisone acetate (10g/ml) resulted in an increased SIF cell fluorescence (P<0.001 compared to control) and a green to yellow colour shift in the fluorophore of SIF cells. No detectable alteration in the fluorescence level of neurones was observed. When neurones after three days in culture were incubated for 1 h in exogenous catecholamines, a significant increase in fluorescence levels (interpreted as an increase in catecholamine content) occurred with noradrenaline (2×10^–6 M; 2×10^–5 M). SIF cells in ganglia removed directly from 14-day old chicks similarly took up noradrenaline and dopamine, and also adrenaline (2×10^–5 M). Morphological results are presented which indicate that the cellular appearances and architecture of cultured ganglion explants are very similar to those in comparable ganglia in vivo.This work was supported by a grant from the Medical Research Council. We thank Mrs. G. O'Shea, Mr. T.T. Lee and Mr. P.F. Hire for their valuable technical assistance     

Synaptosomal degradation of substance P and some other neuropeptides

Synaptosomes purified from spinal cord and from different rat brain areas exhibit peptide hydrolase activity, cleaving substance P (SP), bradykinin, THRH, LHRH, and neurotensin. The lowest activity for all the peptides tested was found in spinal cord, while the region with the highest degrading activity depended on the substrate: for substance P, it was striatum and cortex; for bradykinin, hypothalamus, and medulla oblongata; for THRH, striatum; for LHRH, midbrain; and for neurotensin, hippocampus. Degradation of substance P takes place at the plasma membrane of synaptosomes. Synaptosome ghosts cleave substance P (pH optimum 7–9,K _m–2.5×10^–5 M,V _max–130 nmol·hr^–1·mg protein^–1 and also a number of its C-terminal fragments. Effects of the inhibitors show that several different classes of peptidases and proteases are involved in the degradation process. Peptide cleavage represents the probable pathway of synaptosomal inactivation of substance P.     

Influence of Temocapril on Cultured Ventral Spinal Cord Neurons

Temocapril, a angiotensin-converting enzyme (ACE) inhibitor, was tested for neurotrophic activity in primary explant cultures of ventral spinal cord of fetal rats (VSCC). Temocapril had a remarkable effect on neurite outgrowth with a 4.2- to 5.1-fold increased over that of control VSCC at their effective concentrations. In temocapril-treated VSCC, choline acetyltransferase (ChAT) activity was also increased 2.4–3.2 times over that of control at 10^–9 and 10^–8 M, respectively. Our data suggest that temocapril is a candidate for neurotrophic factors on spinal motor neurons in vitro. A possible therapeutic role for temocapril in damaged motor neurons, such as in motor neuropathy and amyotrophic lateral sclerosis, remains to be defined.     

T-588 Enhances Neurite Outgrowth and Choline Acetyltransferase in Cultured Rat Spinal Ventral Horn Neurons

T-588(R(-)-1-(benzo(b)thiophen-5yl)-2-[2(N,N-diethylamino)ethoxy]ethanol hydrochloride) is a novel compound which has been shown to exhibit a wide range of neurotrophic effects both in vivo and in vitro. This compound can slow the motor deterioration of wobbler mouse motor neuron disease. However, it is not known whether this compound has a trophic effect on spinal motor neurons. We have studied the effect of T-588 on neurite outgrowth and choline acetyltransferase(ChAT) activity in primary explant cultures of ventral spinal cord of fetal rats(VSCC). Cultures were treated with T-588 from day 1 to 1 week. T-588 treated VSCC, compared with control VSCC, had a significant neurite promoting effect at ranged between 10^–8 molar(M) and 10^–5 M, with 2.3 to 5.3 fold increased over that of control VSCC. In T-588 treated VSCC, ChAT activity was increased 1.5 times over that of control at 10^–6, and 10^–5 M respectively. Our data showing T-588 has neurotrophic action on VSCC and suggests a potential use of T-588 in treating diseases that involve degeneration and death of spinal motor neurons, such as motor neuropathy and motor neuron disease.     

Effects of L-alanine and L-alanine peptides on the chemotaxis of tetrahymena: Evolutionary conclusions

L-alanine and its peptides (L-Ala-2–6) do not attract or repulse Tetrahymena in a 10^–8M concentration. In 10^–10M concentration there is a consistent repellent effect. Twenty four hours after L-alanine or L-alanine-peptides' pretreatment (imprinting) the progeny generation of the cells react differently to the same materials. L-Alanine, L-alanine penta- and hexapeptide in both concentrations are chemoattractant, while L-alanine tetrapeptide is repellent. L-Alanine dipeptide is inert in 10^–10M and repellent at 10^–8M concentrations, while L-alanine tripeptide is strongly repellent at 10^–10M and attractant at 10^–8M concentrations. This means, that the first encounter (imprinting) with an exogeneous amino acid or peptide is decisive to the later reaction of the protozoan cell. The chain length is important in the imprinting, however the reaction is not consistent. The experiments call the attention to the significance of imprinting in the receptor and hormone evolution.     

The distribution and turnover of tryptamine in the brain and spinal cord

Tryptamine levels have been determined in mouse brain regions and spinal cord and in rat spinal cord. They were; caudate nucleus 2.5 ng·g^–1, hypothalamus <0.5 ng·g^–1, hippocampus <0.7 ng·g^–1, olfactory bulb <0.7 ng·g^–1, olfactory tubercles <0.6 ng·g^–1, brain stem <0.4 ng·g^–1, cerebellum <1.0 ng·g^–1, and the rest 0.9 ng·g^–1. The mouse whole brain was found to have 0.5 ng·g^–1, the mouse spinal cord 0.3 ng·g^–1, and the rat spinal cord 0.3 ng·g^–1. These concentrations increased rapidly to 22.8 ng·g^–1, 14.2 ng·g^–1, and 6.6 ng·g^–1 respectively at 1 hr after 200 mg·kg^–1 pargyline. The turnover rates and half lives of tryptamine in the mouse brain and spinal cord and rat spinal cord were estimated to be 0.14 nmol·g^–1·h^–1 and 0.9 min; 0.054 nmol·g^–1·h^–1 and 1.5 min and 0.04 nmol·g^–1·h^–1 and 1.6 min respectively. The aromaticl-aminoacid decarboxylase inhibitors NSD 1034 and NSD 1055 reduced synthesis of tryptamine in controls and pargyline pretreated animals. Tryptophan increased the concentrations of mouse striatal tryptamine and 5-hydroxytryptamine and brain stem 5-hydroxyindole acetic acid.p-Chlorophenylalanine reduced formation of 5-hydroxytryptamine and 5-hydroxyindoleacetic acid but did not change that of tryptamine.     

Tryptamine as an endogenous modulator of neuronal sensitivity to serotonin

Research was performed on sensory ganglia isolated from adult rats using intracellular techniques for recording membrane potential and by measuring resistance at the membrane of individual units. It was found that tryptamine at high concentrations manifests serotoninlike activity, but, at concentrations not affecting potential and resistance at the neuronal membrane, either reinforces (at a concentration of 10^–7 M) or attenuates (at 10^–5 M) serotonin (5-HT) effects mediated by type 1A (but not type 2) 5-HT receptors. 5-HT-modulated effects were produced by tryptamine-induced changes in 5-HT sensitivity at the neuronal membrane and remained unchanged by maximum level of this transmitter. Harmane acts similarly to tryptamine, although harmane derivatives (C-412 and C-506 respectively) produce either potentiation or inhibition of 5-HT_1A over the entire concentration range used (of 10^–7 M-10^–5 M). The allosteric nature of 5-HT-modulation by tryptamine and harmane is discussed.M. Gor'kii Medical Institute, Donetsk, Ukrainian SSR. Translated from Neirofiziologiya, Vol. 21, No. 3, pp. 352–357, May–June, 1989.     

Inhibitory effects of GABA on synaptic excitation in isolated rat hippocampal slices

In research on -aminobutyric acid (GABA) used at different concentrations on the amplitude of EPSP within populations (PEPSP), as recorded from dentrites in isolated hippocampal slices, GABA induced a dose-dependent reversible reduction in PEPSP amplitude with no noticeable signs of desensitization. Highest sensitivity to GABA was shown by PEPSP in hippocampal zone CA1 (threshold concentration: 3×10^–5–2×10^–4 M; (concentration at which the effect equal to 1/2 of maximum occurs) IC₅₀: 5×10^–4–1×10^–3 M). The effects of GABA on PEPSP were not blocked by bicuculline, picrotoxin, or penicillin. Action of GABA on dendritic antidromic population spike (DAPS — postynaptic effects) were slightly diminished by these blockers. Baclofen inhibited PEPSP more powerfully than GABA (threshold concentration: 1×10^–6 M: IC₅₀: 3×10^–6 M), although it only produced a minor reduction in DAPS amplitude even at high concentrations. It is concluded that the inhibitory effect of GABA on PEPSP in hippocampal zone CA1 may be put down mainly to its presynaptic action mediated by GABA_B receptors on axonal terminals of Schaffer collaterals.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 22, No. 5, pp. 627–633, September–October, 1990.     

Effect of urethane (ethyl carbamate) on the mitosis of phytohaemagglutinin stimulated human lymphocytesin vitro

Summary The action of urethane at concentrations between 10^–1 and 10^–8 M on the rate of mitosis of phytohaemagglutinin-stimulated human lymphocytes in culture has been investigated. At 10^–1M urethane is cytotoxic, at all other concentrations tested it has some inhibitory activity except at 10^–5M and 10^–6M where it stimulates mitosis. These results are discussed in relation to previously reported data and compared with the action of hydroxyurea in the same system.I wish to thank the Smith Kline and French Foundation for financial support and Mrs. B. Haynes and Miss C. Watson for technical assistance.     

Ionic mechanisms of the effect of phenibut and gaba not associated with a change in the function of the chloride channels

In experiments on isolated spinal cord of young rats 7–14 days old under conditions of takeoff of the electrical activity of the spinal roots with a sugar bridge, it was established that the GABA-mimetic phenibut induces direct depolarization of the motoneurons. In the same concentration range (10^–5-10^–4 M), GABA has a dual effect. The depolarizing component of the action of GABA in part of the experiments and the depolarizing effect of phenibut in all the experiments are preserved in the presence of picrotoxin (10^–5 M) and under conditions of superfusion of the brain with a solution with a reduced chloride concentration. This depolarizing effect of phenibut, not associated with the activation of GABA_A receptors and chloride channels coupled with them, is unchanged in a medium with Na⁺ deficiency, is enhanced during depolarization of the motoneurons due to an increased concentration of K⁺ (10 mM) and in the presence of imidazole, but is entirely eliminated in a medium with Ca²⁺ deficiency, containing 2 mM Mn²⁺, or in the presence of theophylline (10^–4 M). It is suggested that phenibut, and to some degree, GABA lower the intracellular concentration of cAMP by means of activation of the GABA_B receptors, which leads to blocking of the functional activity of the potential-dependent calcium channels and a decrease in the calcium-activated outflowing potassium currents. The ability to weaken the inflowing calcium currents may also be the basis of the presynaptic inhibiting effect of GABA and GABA-mimetics (phenibut, baclofen, etc.) on the pulsed release of mediators by the axon terminals of catecholaminergic, glutamatergic, and GABA-ergic neurons.A. M. Gor'kii Donetsk Medical Institute. Translated from Neirofiziologiya, Vol. 17, No. 4, pp. 481–489, July–August, 1985.     

Interactions between prostaglandin E2 andd-ala2-met-enkephalinamide on adenylate cyclase activity in the guinea-pig superior cervical ganglion

Crude membrane fractions, obtained from superior cervical ganglia of normal and sympathectomized guinea-pigs, have been used to investigate the role of prostaglandin E₂ andd-ala²-met-enkephalinamide in the modulation of ganglionic adenylate cyclase as well as their functional interrelationship. In ganglia from normal animals the enzyme activity was stimulated and inhibited, respectively, by the prostaglandin (10^–4M) and by the opiate pentapeptide (10^–4M), while little or no effects were observed in denervated preparations. When the two substances were tested in combination, a supra-additive stimulation of adenylate cyclase activity was obtained both in normal and denervated ganglia. In the latter preparation the opiate increased prostaglandin E₂ specific binding, suggesting that the mechanism of supra-additivity could involve interactions at receptors level. Furthermore, the supra-additive stimulation of adenylate cyclase activity by the combination of the two drugs was obtained in a narrow range of concentrations since at low prostaglandin E₂ doses (10^–7–10^–6M) or at very high doses of the opiate (10^–3M), only the inhibitory effect ofd-ala²-met-enkephalinamide was evidenced.     

Synaptic effects of nicotinic and muscarinic agonists in sympathetic ganglia of the frog

Superfusion of the isolated sympathetic ganglia of the frog with nicotinic agonists (suberyldicholine, tetramethylamonium, and dimethylphenylpiperazinium), as well as acetylcholine in the presence of atropine led to a brief depolarization of the neurons and blockade of synaptic transmission. The muscarinic agonists methylfurmethide (MFM) and methyldilvasen, cis^–, L(+), as well as acetylcholine elicited a stable depolarization which is not accompanied by disturbance in transmission. Oxotremorine at a concentration of 1·10^–5 M did not lead to the depolarization of the post-synaptic membrane, but at a concentration of 1·10^–6 M decreased the quantal EPSP content twofold, which indicates that the presynaptic receptors belong to the M₂ subtype. Inhibition of acetylcholinesterase significantly intensified the postsynaptic effect of MFM: a shift of the concentration-effect curve took place toward the side of lower MFM concentrations. It was shown that the post-synaptic muscarinic receptors of the ganglionic neurons possess varied sensitivity to the enantiomers of methyldilvasen and, consequently, are stereospecific. The identified functional properties of the cholinoreceptors of the ganglionic neurons explain the set of changes in synaptic transmission under conditions of the prolonged presence of a mediator in the synaptic cleft.I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 20, No. 2, pp. 227–234, March–April, 1988.     

ACTH,cyclic nucleotides,and brain protein phosphorylation in vitro

Endogenous phosphorylation of proteins from rat brain synaptosomal plasma membranes was studied in vitro. Cyclic AMP (cAMP) markedly stimulated³²P incorporation in three protein bands with molecular weights of 75,000, 57,000, and 54,000, respectively. The effect of the behaviorally active peptide ACTH_1–24 on this endogenous phosphorylation in vitro was studied using peptide concentrations from 10^–10 to 10^–4 M. In a number of protein bands, a biphasic effect of ACTH_1–24 was observed: in concentrations of 10^–4–10^–5 M, a reduced amount of³²P was found; in concentrations of 10^–6–10^–7 M, hardly any effect could be detected, whereas consistently at concentrations around 10^–8 M, a significant decrease was again observed. The phosphoprotein bands affected by in vitro addition of ACTH_1–24 were of a smaller molecular weight than those affected by in vitro addition of cAMP.     

Stimulatory effect of genistein and daidzein on protein synthesis in osteoblastic MC3T3-E1 cells: Activation of aminoacyl-tRNA synthetase

The effect of genistein and daidzein on protein synthesis in osteoblastic MC3T3-E1 cells in vitro was investigated to determine a cellular mechanism by which the isoflavones stimulate bone formation. Cells were cultured for 48 h in -minimal essential medium containing either vehicle, genistein (10^–7–10^–5 M) or daidzein (10^–7–10^–5 M). The 5,500 g supernatant of cell homogenate was used for assay of protein synthesis with [³H]leucine incorporation in vitro. The culture with genistein or daidzein caused a significant elevation of protein synthesis in the cell homogenate. The effect of genistein (10^–5 M) or daidzein (10^–5 M) in elevating protein synthesis was significantly prevented, when cells were cultured for 48 h in a medium containing either actinomycin D (10^–7 M) or cycloheximide (10^–6 M) in the absence or presence of isoflavones. Moreover, when genistein (10^–7–10^–5 M) or daidzein (10^–6 and 10^–5 M) was added to the reaction mixture containing the cell homogenate obtained from osteoblastic cells cultured without isoflavone, protein synthesis was significantly raised. This increase was markedly blocked by the addition of cycloheximide (10^–7 M). In addition, [³H]leucyl-tRNA synthetase activity in the cytosol of osteoblastic cells was significantly increased by the addition of genistein (10^–6 and 10^–5 M) or daidzein (10^–5 M) into the enzyme reaction mixture. The present study demonstrates that genistein or daidzein can stimulate protein synthesis in osteoblastic MC3T3-E1 cells. The isoflavones may have a stimulatory effect on osteoblastic bone formation due to increasing protein synthesis.     

Noradrenaline and its end metabolite 3-methoxy-4-hydroxyphenylglycol inhibit lymphocyte chemotaxis: Role of alpha- and beta-adrenoreceptors

The capacity of noradrenaline (NA) and its end metabolite 3-methoxy-4-hydroxyphenylglycol (MHPG) to modulate the chemotaxis of lymphocytes from a primary immunocompetent organ (thymus) and a secondary one (spleen) was investigated over a range of concentrations from 10^–12 M to 10^–5 M. Lymphocyte chemotaxis was evaluated in a Boyden chamber. The results indicated that 10^–5 M of NA inhibits the chemotaxis of lymphocytes from both the immunocompetent organs studied, and that this effect is blocked by either propranolol (10^–6 M) or phentolamine (10^–5 M). Similarly, 10^–5 M of MHPG induced a decrease in the chemotaxis capacity of the lymphocytes. In conclusion, high physiological concentrations of NA and its end metabolite modulate the mobility of lymphocytes, and the participation of both alpha and beta adrenoreceptors is necessary, showing a new aspect of neuroimmune interactions.     

Possible Participation of Serotonin in the Peripheral Link of the Defensive Reflex in the Mollusc Lymnaea stagnalis

The contractions of the dorsal longitudinal muscle of the mollusc Lymnaea stagnalis L., which are evoked by electric stimulation of n. cervicalis inferior were studied. It has been shown that an increase of magnesium ion concentration in saline to 10–15 mM decreases reversibly amplitude of the evoked contractions. Application of serotonin produced a dual effect: at concentrations of 2 × 10^–5–10^–6 M, it enhanced muscle contractions, whereas at concentrations above 10-5 M, on the contrary, decreased them. The inhibitory effect of the serotonin antagonist mianserin on the evoked contraction amplitude increased with elevation of its concentrations in the studied range (from 10^–5 to 10^–3 M). The enhancing effect of serotonin on muscle contractions was blocked either by previous mianserin application or its application on the background of the already acting serotonin. A participation of serotoninergic mechanisms in the control of the contractile function of the studied muscle is suggested.     

Regulation of Adenylyl Cyclase Signaling System in Cell Cultures of Infusoria Dileptus anser and Tetrahymena pyriformis by Peptides of Insulin Superfamily

Hormone-sensitive adenylyl cyclase signaling system (ACS) provides transduction of a wide spectrum of hormonal signals in cells of the higher eucaryotes. At the same time, ACS in the lower eucaryotes at present is practically not studied. We studied regulatory effects on ACS of the infusoria Dileptus anser and Tetrahymena pyriformis of peptide hormones of the higher eukaryotes—insulin, IGF-1, and relaxin, whose action on ACS of the higher eucaryotes was the subject of our earlier studies. The action of these hormones at concentrations of 10^–10–10^–8 M on the AC activity in infusoria had clearly stimulating character, the dose–effect curves being of a bell-shaped form with a maximum of the stimulating effect of the hormones at concentrations of 10^–9–10^–8 M. the shape of the curves and the value of the stimulating effect of the peptide hormones depended substantially on the level of the AC basal activity in homogenates of infusorian cell cultures. All the hormones (10^–8 M) stimulated GTP-binding activity of G-proteins. It was shown by the example of relaxin that its stimulating effect on GTP-binding in infusorian cells was dose-dependent and increased in the range of hormone concentrations from 10^–10 to 10^–8 M to reach its maximum at concentrations of 10^–8–10^–7 M. In the presence of suramin, an inhibitor of heterotrimeric G-proteins, the stimulating effects of the hormones on the GTP-binding and the AC activity decreased essentially or were absent completely. This indicates that the heterotrimeric G-proteins are ones of components of the signaling cascade that mediates regulatory effects of the hormones of the insulin group on the AC activity in infusorian cell cultures. Based on the obtained data, it is suggested that the basic molecular mechanisms of regulation of ACS by insulin and the related peptides that are similar to those found in the higher vertebrates already begin to be formed as early as at the level of the lower eucaryotes.