Cerebral Cortical Glucose Utilization in the Conscious Rat: Evidence for a Circadian Rhythm

Abstract: The presence of a circadian rhythm of glucose utilization was demonstrated in vivo in rat cerebral cortex. The activity pattern of the rats, living in a controlled lighting regimen with lights on from 7 a.m. to 7 p. m., appeared to coincide with the rate of glucose consumption in the brain. The rate of utilization was measured at 3-h intervals throughout the day and was found to fall from a maximum at 3 a.m. of 0.98 ± 0.13 μmol min⁻¹ g⁻¹ to a minimum of 0.70 ± 0.08 μmol min⁻¹ g⁻¹ at 3 p. m. Brain glucose also varied with time and its fluctuating level weakly correlated with its rate of utilization. Animals entrained on a 5-h (4: 30-9: 30 p. m.) feeding schedule had a similar circadian rhythm, with only a slight increase in amplitude. Reversal of the light cycle caused a disruption in the normal rhythm, but utilization still varied significantly with time of day. The results both indicate the potential error that can be encountered in experiments done at different times of the day and stress the need for awareness of time of day as a factor in measurements of alterations of metabolic rate in the brain.     

Estrogen increases calcitonin gene‐related peptide‐immunoreactive sensory innervation of rat mammary gland

Estrogen plays important roles in preparing mammary tissue for lactation. However, estrogen also influences innervation in some tissues. We examined the effect of estrogen on peripheral innervation of mammary tissues of ovariectomized adult virgin female rats. Seven days after ovariectomy, 17β‐estradiol or placebo pellets were implanted subcutaneously, and tissues were harvested 1 week later. Estrogen treatment decreased mammary gland mass and adipocyte content, while ductal content increased and vascular composition was unaffected. Estrogen increased total areas occupied by nerves in mammary gland sections immunostained for the pan‐neuronal marker protein gene product 9.5, and this increase persisted after normalizing for treatment‐induced differences in gland mass. Although a significant increase in tyrosine hydroxylase‐immunoreactive sympathetic nerve area was observed, no difference was detected following correction for differences in gland size, implying a conserved number of sympathetic nerves in the face of reduced gland volume. Calcitonin gene‐related peptide‐immunoreactive sensory nerve sectional area was also increased, and corrected nerve area remained 88% greater, indicating nerve proliferation during estrogen treatment. Total, sensory, and sympathetic innervation of the nipple and adjacent dermal tissue were unaffected by estrogen. We conclude that chronic estrogen elevation induces selective proliferation of rat mammary gland calcitonin gene‐related peptide‐containing nerves, which are associated primarily with blood vessels and are probably nociceptors. Because they are likely to subserve a vasodilatory function, increased innervation may promote increased blood flow necessary for milk formation during suckling. Moreover, these findings may help explain abundant anecdotal reports of increased breast sensitivity in humans under high estrogen conditions. © 2004 Wiley Periodicals, Inc. J Neurobiol 59: 192–204, 2004     

Differentiation Between Alterations in Plasma and Mitochondrial Membrane Potentials in Synaptosomes Using a Carbocyanine Dye

The cationic potentiometric fluorescent probe 3,3'-diethylthiadicarbocyanine iodide [DiS-C2(5)] was used in synaptosomes to assess the relative contributions of plasma and mitochondrial membrane potentials (psi p and psi m, respectively) to overall fluorescence. Addition of synaptosomes to media containing 0.5 microM dye caused a decrease in fluorescence intensity due to dye accumulation, which equilibrated usually within 5 min. Depolarization of mitochondria by combined treatment with cyanide and oligomycin increased fluorescence by 42%, indicating significant prior accumulation of dye into intrasynaptosomal mitochondria. psi p was calculated to be -54 mV and was not altered significantly by prior depolarization of psi m with cyanide and oligomycin (hereafter referred to as "poisoned" synaptosomes). Similarly, the linear relationship between dye fluorescence and psi p was not altered by depolarization of psi m. Valinomycin, a K+ ionophore, caused a psi p-dependent increase in fluorescence in control (nonpoisoned) synaptosomes, but did not alter fluorescence of poisoned synaptosomes except when the extracellular concentration of K+ ([K+]e) was 2 mM, in which case valinomycin hyperpolarized psi p by about 5 mV. The pore-forming antibiotic gramicidin depolarized both psi p and psi m maximally. Under these conditions, Triton X-100 further increased fluorescence by 40%, indicating significant dye binding to synaptosomal components. In poisoned synaptosomes depolarized by 75 mM K+, gramicidin caused a decrease in fluorescence intensity (hyperpolarization of psi p). The organic solvent dimethyl sulfoxide, used as a vehicle for the hydrophobic ionophores, had voltage-dependent effects on psi p and psi m.(ABSTRACT TRUNCATED AT 250 WORDS)     

Potassium channels from the plasma membrane of rye roots characterized following incorporation into planar lipid bilayers

Plasma membrane was purified from roots of rye (Secale cereale L. cv. Rheidol) by aqueous-polymer two-phase partitioning and incorporated into planar bilayers of 1-palmitoyl-2-oleoyl phosphatidylethanolamine by stirring with an osmotic gradient. Since plasmamembrane vesicles were predominantly oriented with their cytoplasmic face internal, when fused to the bilayer the cytoplasmic side of channels faced the trans chamber. In asymmetrical (cis:trans) 280100 mM KCl, five distinct K⁺-selective channels were detected with mean chord-conductances (between +30 and -30 mV; volyages cis with respect to trans) of 500 pS, 194 pS, 49 pS, 21 pS and 10 pS. The frequencies of incorporation of these K⁺ channels into the bilayer were 48, 21, 50, 10 and 9%, in the order given (data from 159 bilayers). Only the 49 pS channel was characterized further in this paper, but the remarkable diversity of K⁺ channels found in this preparation is noteworthy and is the subject of further study. In symmetrical KCl solutions, the 49 pS channel exhibited non-ohmic unitary-current/voltage relationships. The chord-conductance (between +30 and-30 mV) of the channel in symmetrical 100 mM KCl was 39 pS. The unitary current was greater at positive voltages than at corresponding negative voltages and showed considerable rectification with increasing positive and negative voltages. This would represent inward rectification in vivo. Gating of the channel was not voltage-dependent and the channel was open for approx. 80% of the time. Presumably this is not the case in vivo, but we are at present uncertain of the in vivo controls of channel gating. The distribution of channel-open times could be approximated by the sum of two negative exponential functions, yielding two open-state time constants (_o, the apparent mean lifetime of the channel-open state) of 1.0 ms and 5.7 s. The distribution of channel-closed times was best approximated by the sum of three negative exponential functions, yielding time constants (_c, the apparent mean lifetime of the channel-closed state) of 1.1 ms, 51 ms and 11 s. This indicates at least a five-state kinetic model for the activity of the channel. The selectivity of the 49 pS channel, determined from both reversal potentials under biionic conditions (100 mM KCl100 mM cation chloride) and from conductance measurements in symmetrical 100 mM cation chloride, was Rb⁺ K⁺ > Cs⁺ > Na⁺ > Li⁺ > tetraethylammonium (TEA⁺). The 49 pS channel was reversibly inhibited by quinine (1 mM) but TEA⁺ (10 mM), Ba²⁺ (3 mM), Ca²⁺ (1 mM), 4-aminopyridine (1 mM) and charybdotoxin (3 M) were without effect when applied to the extracellular (cis) surface.Abbreviations and Symbols GHK Goldman-Hodgkin-Katz - I/V current/voltage - PEG polyethyleneglycol - P_o probability o f the channel being open - TEA⁺ tetraethylammonium - _c apparent mean lifetime of the channel-closed state - _o apparent mean lifetime of the channel-open state P.J.W. was supported by a grant from the Science and Engineering Research Council Membrane Initiative (GR/F 33971) to Professor E.A.C. MacRobbie and M.T. by the Glaxo Junior Research Fellowship at Churchill College, Cambridge. We thank Dr. D.T. Cooke (AFRC, Long Ashton Research Station, University of Bristol, UK) and Ms. J. Marshall (University of York, UK) for their advice and assistance with the aqueous-polymer two-phase partitioning of plasma membrane from rye roots, Mr. J. Banfield and Miss P. Parmar (University of Cambridge, UK) for technical assistance and Professor E.A.C. MacRobbie, Dr. G. Thiel (University of Cambridge, UK), Dr. M.R. Blatt (Wye College, University of London, UK), Dr. D. Sanders and Dr. E. Johannes (University of York, UK) for helpful discussions.     

Characterization of the plasma-membrane H+-ATPase from Vicia faba guard cells

Stomatal movement is controlled by external and internal signals such as light, phytohormones or cytoplasmic Ca²⁺. Using Vicia faba L., we have studied the dose-dependent effect of auxins on the modulation of stomatal opening, mediated through the activity of the plasma-membrane H⁺-ATPase. The patch-clamp technique was used to elucidate the electrical properties of the H⁺-ATPase as effected by growth regulators and seasonal changes. The solute composition of cytoplasmic and extracellular media was selected to record pump currents directly with high resolution. Proton currents through the ATPase were characterized by a voltage-dependent increase in amplitude, positive to the resting potential, reaching a plateau at more depolarized values. Upon changes in extracellular pH, the resting potential of the cell shifted with a non-Nernst potential response (±21 mV), indicating the contribution of a depolarizing ionic conductance other than protons to the permeability of the plasma membrane. The use of selective inhibitors enabled us to identify the currents superimposing the H⁺-pump as carried by Ca²⁺. Auxinstimulation of this electroenzyme resulted in a rise in the outwardly directed H⁺ current and membrane hyperpolarization, indicating that modulation of the ATPase by the hormone may precede salt accumulation as well as volume and turgor increase. Annual cycles in pump activity (1.5–3.8 μA · cm^-2) were expressed by a minimum in pump current during January and February. Resting potentials of up to -260 mV and plasmamembrane surface area, on the other hand, did not exhibit seasonal changes. The pump activity per unit surface area was approximately 2- to 3-fold higher in guard cells than in mesophyll cells and thus correlates with their physiological demands.     

Effect of uncomplicated pregnancy on body water content and distribution in baboons

Body water content and distribution were estimated before, during, or after 32 pregnancies in baboons. Water content of the various compartments (in liters) correlated with body weight in both nonpregnant and pregnant baboons, and with length of gestation in pregnant baboons. In proportion to body weight (in ml/kg), most water compartments did not change significantly with length of gestation. Mean plasma volume and blood volume were higher during pregnancy than before or after.     

Flavescin: A new 1-ketopolyhydroxypregnene from Marsdenia flavescens

A new polyhydroxy-1-ketosteroid, flavescin, was isolated from Marsdenia flavescens A. Cunn. Its structure was elucidated as 12-O-acetyl-3β,8β,12β,14β-20-pentahydroxy-Δ⁵- pregnene-1-one.     

Specific binding of anti-myosin and -actin γ-globulins to the surface of trypsin-dissociated embryonic chick cells

Summary ¹²⁵I-labelled sheep anti-rabbit -globulin antibodies were used to locate rabbit antibodies to smooth- and striated-muscle actomyosins at the surface of trypsin-dissociated embryonic chick cells. Statistical analysis of electron microscope autoradiographs revealed that the plasma membrane of these cells was significantly labelled with both antibodies. Further tests revealed that there were a significantly greater number of antigenic sites present on the cell surface for the gizzard smooth-muscle antibodies than for those against pectoralis striated-muscle actomyosin.It was further shown that both the rate and extent of binding of the ¹²⁵Ilabelled smooth-muscle actomyosin antibodies to the cells were greater than for anti-striated-muscle -globulins. Binding of the former was reduced to a level similar to that of ¹²⁵I-NIS conjugate by preincubation of the y-globulins with smooth-muscle heavy meromyosin, while a similar reduction was observed when anti-pectoralis actomyosin was treated with actin.It was concluded that actin- and myosin-like proteins must now be considered as integral components of the plasma membrane.The authors wish to thank Dr. W. Sinclair (Zoology) and Miss S. Lutkins (Statistics Department) for assistance with the statistical analysis and are grateful to Professor N. A. Mitchison (Zoology Department, University College London) for providing a control sample of ¹²⁵I-labelled sheep anti-rabbit -globulin, Dr. D. Catty (Experimental Pathology Department, Birmingham University) for donating sheep anti-rabbit serum and Dr. U. Gröschel-Stewart (Zoologisches Institut der TH., Darmstadt, Federal Republic of Germany) for the rabbit anti-actomyosin antibodies. Miss B. Morris and Messrs. P. C. Lloyd, D. Williams and J. Meredith gave skilled technical assistanceThis investigation was supported by grants from Science Research Council, Cancer Research Campaign and Deutsche Forschungsgemeinschaft.