James F. Aiton

Actions of atrial natriuretic peptide (ANP) on cyclic nucleotide concentrations and phosphatidylinositol turnover in ventricular myocytes

Atrial natriuretic peptide (ANP) stimulates cGMP production in isolated rabbit ventricular myocytes incubated in the presence of the phosphodiesterase inhibitor isobutylmethylxanthine (1mM). Half maximal activation was found at 10(-8)M ANP. Cellular cGMP concentrations of around 0.6 pmol/10(6) cells were elevated 4-6 fold by ANP (10(-6)M), 3-4 fold by carbachol (1mM) and around 10 fold by sodium nitroprusside (1mM). ANP had no effect on basal or isoprenaline-stimulated cAMP concentrations or on basal or noradrenaline-stimulated turnover of phosphatidylinositol. From these results we conclude that ANP receptors, coupled to particulate guanylate cyclase, exist in cardiac ventricular muscle. This indicates that ANP may also have a physiological action on ventricular muscle contractility during volume expansion.

Cartilaginous development of the human craniovertebral junction as visualised by a new three-dimensional computer reconstruction technique

Serial transverse histological sections of the human craniovertebral junction (CVJ) of 4 normal human embryos (aged 45 to 58 d) and of a fetus (77 d) were used to create 3‐dimensional computer models of the CVJ. The main components modelled included the chondrified basioccipital, atlas and axis, notochord, the vertebrobasilar complex and the spinal cord. Chondrification of the component parts of CVJ had already begun at 45 d (Stage 18). The odontoid process appeared to develop from a short eminence of the axis forming a third occipital condyle with the caudal end of the basioccipital. The cartilaginous anterior arch of C1 appeared at 50–53 d (Stages 20–21). Neural arches of C1 and C2 showed gradual closure, but there was still a wide posterior spina bifida in the oldest reconstructed specimen (77 d fetus). The position of the notochord was constant throughout. The normal course of the vertebral arteries was already established and the chondrified vertebral foramina showed progressive closure. The findings confirm that the odontoid process is not derived solely from the centrum of C1 and that there is a ‘natural basilar invagination’ of C2 during normal embryonic development. On the basis of the observed shape and developmental pattern of structures of the cartilaginous human CVJ, we suggest that certain pathologies are likely to originate during the chondrification phase of development.

Atrial natriuretic peptide receptors and activation of guanylate cyclase in rat cardiac sarcolemma

Two classes of atrial natriuretic peptide (ANP) receptors are present in purified sarcolemmal membrane fractions isolated from rat ventricle. Scatchard analysis using [125I]-ANP reveals high affinity (Kd approximately 10(-11) M) and low affinity (Kd approximately 10(-9) M) binding sites. Basal guanylate cyclase activities associated with these membrane fractions range from 3.2 +/- 1.3 pmol/min/mg protein in the presence of Mg2+ to 129 +/- 17 pmol/min/mg protein in the presence of Mn2+. Millimolar concentrations of adenosine triphosphate (ATP) potentiates Mg2+- but not Mn2+-supported activity. Binding of ANP to the low affinity site but not the high affinity site results in a maximum 2-fold activation of Mn2+- and up to 6-fold activation of Mg2+/ATP supported guanylate cyclase activities.

Biochemical and physiological adaptation to chronic propranolol treatment in the rat

The biochemical and physiological aspects of isoprenaline sensitivity in normotensive rats were examined during and after abrupt withdrawal of chronic propranolol treatment. Serum propranolol concentrations in rats chronically treated for one month (0.125% propranolol in drinking water: 75-100 mg/kg/day) ranged from 7 to 23 ng/ml. At the height of the blockade, rats showed a decreased responsiveness in vivo to isoprenaline-induced increase in heart rate and fall in blood pressure; the ED50 values for isoprenaline being increased some 20- and 4-fold respectively. There was a 180% increase in beta-receptor number in sarcolemmal membranes isolated from ventricular muscle of these animals, together with increased basal (290%), fluoride- (100%), forskolin- (80%) and isoprenaline-stimulated (125%) adenylate cyclase activity. Twenty-four hours after propranolol withdrawal, serum propranolol concentrations were reduced by over 95%. At this time rats exhibited increased chronotropic and blood pressure responses to i.v. isoprenaline, indicated by the reduced ED50 values (2-fold and 12-fold respectively compared to controls). In addition, cardiac sarcolemmal beta-receptor number and adenylate cyclase activities were still significantly elevated above those of controls; 35% increase in beta-receptor number and increases of 96, 26, 13 and 37% in basal, fluoride-, forskolin- and isoprenaline-stimulated adenylate cyclase activities respectively. Forty-eight hours after drug withdrawal serum propranolol concentrations were only just detectable at 0.5 +/- 0.1 ng/ml. Although sarcolemmal beta-receptor numbers were still elevated (23%) isoprenaline-stimulated adenylate cyclase activity had returned to control values. However, both the fluoride- and forskolin-stimulated enzyme activities were decreased below control values by 12 and 23% respectively, suggestive of a reduction in the catalytic capacity of the adenylate cyclase complex. In parallel with the reduction in beta-receptor number and adenylate cyclase activity, the chronotropic response to i.v. isoprenaline had also returned to control values. In contrast, the blood pressure response to i.v. isoprenaline was still elevated in these animals indicated by the 5-fold reduction in the ED50 value compared with control animals.

The vomeronasal organ in the human embryo, studied by means of three-dimensional computer reconstruction

The human vomeronasal organ is of interest because of its potential role in sex pheromone detection. Due to the scarcity of early human material, studies of its development have concentrated on fetal rather than embryonic stages. The availability of embryonic specimens in the Walmsley Collection has enabled us to study the development of the vomeronasal organ (VNO) in human embryos between Carnegie Stages 17 and 23. Embryos at Carnegie Stage 17 or below showed no evidence of a VNO. One embryo with characteristics intermediate between Carnegie stages 17 and 18 was the earliest to show evidence of a VNO, in the form of a shallow indentation. All embryos at Carnegie Stages 18 or later had VNOs. Three‐dimensional computer reconstructions were made of the VNO in each specimen where this was possible. This in part depended on the plane of section. The total volume and lumen volume were measured from these reconstructions and the volume of the vomeronasal epithelium was calculated by subtraction. A generally consistent increase in total volume and epithelial volume was observed with increasing developmental stage. The lumen contributed rather little to the total volume at these stages.

Short Report. The study of early human embryos using interactive 3-dimensional computer reconstructions

Tracings of serial histological sections from 4 human embryos at different Carnegie stages were used to create 3‐dimensional (3D) computer models of the developing heart. The models were constructed using commercially available software developed for graphic design and the production of computer generated virtual reality environments. They are available as interactive objects which can be downloaded via the World Wide Web. This simple method of 3D reconstruction offers significant advantages for understanding important events in morphological sciences.

Cation transport in lymphoblastoid cell lines established from bipolar manic-depressive patients

Lymphoblastoid cell lines established from patients suffering from bipolar manic depression have been used to study the possible involvement of cation transport in the aetiology of this illness. No significant difference was found in the K+ fluxes mediated by the ouabain-sensitive sodium pump, the diuretic-sensitive cotransport system and the passive leak pathway of cell lines established from either control or bipolar subjects. The mean value for the specific binding of 3H-ouabain (sodium pump site number) was significantly higher in the bipolar group (approximately 30%) than in the control group.

Computer-aided interactive three-dimensional reconstruction of the embryonic human heart

Despite the fact that development of the human embryo heart is of considerable clinical importance, there is still disagreement over the process and the timing of events. It is likely that some of the conflicting accounts may have arisen from difficulties in describing and visualising 3‐dimensional structures from 2‐dimensional sections. To help overcome this problem and to improve our understanding of the development of the heart, we have devised techniques for the production of interactive 3D models reconstructed from serial histological sections of human embryos. Our method uses commercial software designed for the creation of 3D models and virtual reality environments. The ability to construct interactive visual images which both illustrate and communicate complex 3D information contributes to our understanding of the complex developmental changes occurring in embryogenesis.

Correspondence: World Wide Web access to the British Universities Human Embryo Database

The British Universities Human Embryo Database has been created by merging information from the Walmsley Collection of Human Embryos at the School of Biological and Medical Sciences, University of St Andrews and from the Boyd Collection of Human Embryos at the Department of Anatomy, University of Cambridge. The database has been made available electronically on the Internet and World Wide Web browsers can be used to implement interactive access to the information stored in the British Universities Human Embryo Database. The database can, therefore, be accessed and searched from remote sites and specific embryos can be identified in terms of their location, age, developmental stage, plane of section, staining technique, and other parameters. It is intended to add information from other similar collections in the UK as it becomes available.

Degradation of [125I]-atrial natriuretic peptide by a soluble metallopeptidase isolated from rat ventricular myocytes

Atrial natriuretic peptide is rapidly degraded by a soluble, heat labile peptidase isolated from ventricular myocytes. Degradation of [125I]-ANP is antagonized by unlabelled ANP, bradykinin, glucagon, 1,10-phenanthroline, PCMB, EDTA and the bacterial antibiotic bacitracin, but not by phenylmethylsulphonyl fluoride, aprotinin, phosphoramidon, E-64, amastatin or the ACE inhibitor SQ 20881 and bradykinin potentiator C. In addition neither bovine serum albumin nor caesin afforded any protection against degradation. Peptidase activity was optimal at pH values above 8.5. The peptidase is likely to be of intracellular origin and may contribute to the extensive ANP degradative activity found in various ventricular muscle preparations.