Prostaglandin D2 in cultured capillary and microvascular endothelium of human brain.

Production of prostaglandin D2 (PGD2) was investigated in cultured endothelial cells derived from capillaries and microvessels (small and large) of human brain using radioimmunoassays. Peptides, catecholamines, thrombin, protein kinase C-activating phorbol ester and calcium ionophore greatly stimulated the secretion of endothelial PGD2. Secretion of PGD2 induced by vasoconstricting peptides, angiotensin II and arginine-vasopressin, was almost completely abolished by their respective specific receptor antagonists [Sar1, Ala8]-Ang II and [1-6(beta-mercapto-beta,beta-cyclopentamethylene propionic acid) 2-O-methyltyrosine]. Thus, the augmented production of PGD2 by angiotensin II and arginine-vasopressin is a receptor-mediated event. It also indicates that the EC have specific angiotensin II and arginine-vasopressin (V1) receptors. This study represents the first demonstration of vasoactive agents modulating PGD2 production in capillary and microvascular endothelium of human brain.     

Circulation,metabolic rate,and body size in mammals

Summary This paper attempts to explain Kleiber's rule, which relates metabolic rate of mammals to their body mass, from the structure and function of the blood circulation system.Abbreviations a scaling factor - fractal dimension - hydrodynamic conductivity - l _n length of an arterial blood vessel at bifurcation level n - M body mass - N maximal number of bifurcation levels - p pressure - Q flow - r size of Bohr effect - r _n radius of an arterial blood vessel at bifurcation level n - V volume - VO ₂ rate of oxygen unloading - Z _n number of arterial blood vessels at bifurcation level n     

Composite Technique for Regional Neurochemical Studies: Measurement of Energy and Neurotransmitter Metabolites in Single Tissue Sample

A combined method is described for the determination of various metabolites from a single tissue sample of the brain. It comprises a quick inactivation of cerebral enzymes by microwave irradiation, easy separation of the desired brain regions, and perchloric acid extraction of tissue substances, which are assayed either by specific enzymatic techniques or by HPLC with electrochemical detection. The obtained values of most energy and neurotransmitter metabolites in the brain are in agreement with those reported using other methods. However, this technique, in contrast to the brain freezing in vitro or freeze-blowing, provides a more efficient procedure for rapid arrest of cerebral metabolism even in the deep brain structures and is therefore suitable for detection of early changes particularly those occurring in experimental pathological conditions such as ischemia.     

Epilepsy and weather: A significant correlation between the onset of epileptic seizures and specific atmospherics — a pilot study

The possibility of connections between weather and the onset of epileptic seizures has long been suggested (see, for example, the Hammurabi Codex 1600 BC). Work in the 20th Century points to a probability that the onset of both local and generalised epilepsy is significantly influenced by an interaction between genetic and extrinsic factors. In an attempt to clarify the situation a detailed study of the history of 315 attacks from 1 Jan. to 31 July 1981 suffered by a small number of patients in Munich has been undertaken. Although linkages between classical meteorological parameters and the onset of seizures are very weak, links with more generalised indexes (e.g. passage of fronts and disturbances) are more promising. However, the correlation between onsets and atmospherics of 28 KHz (positive) and 10 KHz (negative) impulses, are significant and call for urgent study.     

Cerebrovascular smooth muscle culture. II. Characterization of adrenergic receptors linked to adenylate cyclase

Cultured and propagated smooth muscle cells contain adenylate cyclase (AC) responsive to catecholamines and their analogues. Isoproterenol and zinterol were the most effective stimulants of AC activity with EC50 = 8.5 X 10(-8)M. They were followed by epinephrine, phenylephrine and norepinephrine (EC50 = 7.5 X 10(-7)M, 6.5 X 10(-6)M and 4 X 10(-6)M, respectively). When the selective antagonists for beta 1 and beta 2 receptors (beta 1-type practolol and atenolol, beta 1/beta 2-type propranolol and beta 2-type butoxamine) were tested against isoproterenol, epinephrine and norepinephrine stimulation of AC activity, the beta 1 in contrast to beta 2 antagonists were found ineffective. The alpha-blockers (phentolamine alpha 1/alpha 2-type antagonists) and yohimbine (alpha 2-type antagonist) alone or in the presence of propranolol did not significantly inhibit the catecholamine-induced enhancement of cAMP formation. On the other hand, prazosine (alpha 1-type antagonist) blocked the stimulatory effect of epinephrine and norepinephrine on AC system. Similarly, the alpha 2-agonist, clonidine, did not affect the catecholamines' stimulated AC activity while alpha 1 agonist, phenylephrine, induced an additive enhancement of norepinephrine production of cAMP. The findings of beta-2- and alpha-1-type adrenergic receptors in the cultured cerebrovascular smooth muscle provide additional support for the implicated involvement of adrenergic innervation in the regulation of cerebral blood flow and/or systemic blood pressure.     

“Unblocking” Serum Activity <Emphasis Type="Italic">in vitro</Emphasis> in the Polyoma System may Correlate with Antitumour Effects of Antiserum <Emphasis Type="Italic">in vivo</Emphasis>

In a variety of tumour systems, individuals carrying progressively growing neoplasms have lymphoid cells with a specific cytotoxic effect on cultured tumour cells from the same individual^1–4. Since the sera of tumour-bearing individuals have been shown to prevent tumour cell destruction by immune lymphocytes in vitro^2,5–8 and since this serum blocking activity appears early in primary and transplant tumour development^5,7, it has been suggested that the appearance of this serum blocking activity might be responsible for the progressive growth of tumours in individuals having cytotoxic lymphocytes. Counteraction of this blocking activity would thus be of primary importance in facilitating the function of an already existing or bolstered cell-mediated immunity. The serum blocking activity might be inhibited in various ways, by preventing the formation of blocking antibody or by interfering with its action (“unblocking”), as demonstrated in Moloney sarcoma regressor sera⁹. This type of serum also has a therapeutic effect on Moloney sarcomas in vivo^10,11, which has been tentatively attributed to its unblocking activity^8,9 or, possibly, to a complement-dependent cytotoxicity¹⁰. Tumour growth in the Moloney sarcoma system, however, might be due in part to continuous recruitment of neoplastic cells by virus-induced transformation and so the therapeutic effect could be due to a virus-neutralizing serum activity^9,10.     

Ischemic Modification of Cerebrocortical Membranes: 5-Hydroxytryptamine Receptors, Fluidity, and Inducible In Vitro Lipid Peroxidation

The effect of ischemia on the properties of 5-hydroxytryptamine1A + B (5-HT1A+B) and 5-hydroxytryptamine1B (5-HT1B) binding sites, physical-state "fluidity" of the membrane, and its susceptibility to peroxidation in vitro was investigated in the cerebral cortex of gerbils. Ischemia was induced by bilateral carotid artery occlusion for 15 min alone or with release for 1 h. Ischemia both with and without reflow decreased the number of 5-HT1A + B and 5-HT1B binding sites, whereas ischemia and reflow altered the affinity for 5-HT1B binding sites. Resistance to the temperature-dependent increase in "fluidity" of the membrane was detected (by fluorescence anisotropy using 1,6-diphenyl-1,3,5-hexatriene as a probe) after ischemia and reflow but not in ischemia alone. Susceptibility of the membranes to Fe2+- and ascorbic acid-stimulated lipid peroxidation in vitro was decreased following ischemia and recirculation only. These findings strongly suggest that the composition and the function of the membrane are markedly disturbed during recirculation after ischemia.     

Effect of Hypoxia on Na+-K+-Cl− Cotransport in Cultured Brain Capillary Endothelial Cells of the Rat

Abstract: The effect of hypoxia on Na⁺,K⁺-ATPase and Na⁺-K⁺-Cl^? cotransport activity in cultured rat brain capillary endothelial cells (RBECs) was investigated by measuring ⁸⁶Rb⁺ uptake as a tracer for K⁺. RBECs expressed both Na⁺,K⁺-ATPase and Na⁺-K⁺-Cl^? cotransport activity (4.6 and 5.5 nmol/mg of protein/min, respectively). Hypoxia (24 h) decreased cellular ATP content by 43.5% and reduced Na⁺,K⁺-ATPase activity by 38.9%, whereas it significantly increased Na⁺-K⁺-Cl^? cotransport activity by 49.1% in RBECs. To clarify further the mechanism responsible for these observations, the effect of oligomycin-induced ATP depletion on these ion transport systems was examined. Exposure of RBECs to oligomycin led to a time-dependent decrease of cellular ATP content (by ～65%) along with a complete inhibition of Na⁺,K⁺-ATPase and a coordinated increase of Na⁺-K⁺-Cl^? cotransport activity (up to 100% above control values). Oligomycin augmentation of Na⁺-K⁺-Cl^? cotransport activity was not observed in the presence of 2-deoxy-d -glucose (a competitive inhibitor of glucose transport and glycolysis) or in the absence of glucose. These results strongly suggest that under hypoxic conditions when Na⁺,K⁺-ATPase activity is reduced, RBECs have the ability to increase K⁺ uptake through Na⁺-K⁺-Cl^? cotransport.     

On the mechanism of ATP-induced shape changes in the human erythrocyte membranes: the role of ATP

In the preceding paper (Sheetz, M. and S.J. Singer. 1977. J Cell Biol. 73:638-646) it was shown that erythrocyte ghosts undergo pronounced shape changes in the presence of mg-ATP. The biochemical effects of the action of ATP are herein examined. The biochemical effects of the action of ATP are herein examined. Phosphorylation by ATP of spectrin component 2 of the erythrocyte membrane is known to occur. We have shown that it is only membrane protein that is significantly phosphorylated under the conditions where the shape changes are produced. The extent of this phosphorylation rises with increasing ATP concentration, reaching nearly 1 mol phosphoryle group per mole of component 2 at 8mM ATP. Most of this phosphorylation appears to occur at a single site on the protein molecule, according to cyanogen bromide peptide cleavage experiments. The degree of phosphorylation of component 2 is apparently also regulated by a membrane-bound protein phosphatase. This activity can be demonstrated in erythrocyte ghosts prepared from intact cells prelabeled with [(32)P]phosphate. In addition to the phosphorylation of component 2, some phosphorylation of lipids, mainly of phosphatidylinositol, is also known to occur. The ghost shape changes are, however, shown to be correlated with the degree of phosphorylation of component 2. In such experiment, the incorporation of exogenous phosphatases into ghosts reversed the shape changes produced by ATP, or by the membrane-intercalating drug chlorpromazine. The results obtained in this and the preceding paper are consistent with the proposal that the erythrocyte membrane possesses kinase and phosphates activities which produce phosphorylation and dephosphorylation of a specific site on spectrin component 2 molecules; the steady-state level of this phosphorylation regulates the structural state of the spectrin complex on the cytoplasmic surface of the membrane, which in turn exerts an important control on the shape of the cell.