Ultrastructural and ERG Findings in Mice With Adenomatous Polyposis Coli Gene Disruption

Marcus, Dennis M., Rustgi, Anil K., Defoe, Dennis, Kucherlapati, Raju, Edelmann, Winfried, Hamasaki, Duco, Liou, Gregory I., Smith, Sylvia B.

01 December 2000

Purpose: In order to continue the previous morphological studies of eyes from mice with adenomatous polyposis coli (APC) gene mutation at codon 1638, we determined the ultrastructural and electrophysiologic characteristics of these eyes. Methods: Thirty-eight eyes from 20 mice heterozygous for APC gene mutation and 22 eyes from 11 wild-type mice were examined by light microscopy. Six APC-modified eyes without light microscopic abnormalities, four APC-modified eyes with focal light microscopic abnormalities, and four wild-type eyes were examined by electron microscopy. Electroretinograms were recorded from four APC-modified and three wild-type mice. Results: Four of 38 APC-modified eyes demonstrated ultrastructural evidence of focal RPE cells with increased melanosome production and atrophy. Other areas of the RPE in these four eyes demonstrated no ultrastructural abnormalities. Three APC-modified eyes demonstrated electron and light microscopic evidence of RPE hyperplasia. Electron microscopic examination of APC-modified eyes without light microscopic evidence of abnormalities demonstrated no ultrastructural differences from age-matched controls. Electroretinography demonstrated no differences in the b-wave or c-wave amplitudes between APC-modified and wild-type mice. Conclusions: While light microscopic RPE alterations are observed in these APC-modified mice, the absence of a generalized, ultrastructural murine RPE defect is in contradistinction to observations in electron microscopic investigations of humans with colonic polyposis, pigmented ocular fundus lesions, and APC gene mutations between codons 463 and 1444. Our results in mice with APC mutation at codon 1638, however, are consistent with a previously identified association between the expression of pigmented ocular fundus lesions and region-specific mutation in the human APC gene. The APC protein may possess a physiologic function for both retinal and RPE development.

Biomedical Sciences

Signaling Mechanisms for Muscarinic Receptor-Mediated Coronary Vasoconstriction in Isolated Rat Hearts

Zhang, Yi, Hoover, Donald B.

01 April 2000

Signaling mechanisms for muscarinic receptor-mediated vasoconstriction in coronary resistance arteries were studied in potassium-arrested isolated rat hearts perfused at a constant flow rate. The cholinergic agonist bethanechol was given by bolus injection or constant infusion. Perfusion pressure was monitored as an indicator of coronary vascular resistance. Bolus injection of bethanechol evoked a phasic vasoconstriction in a dose-dependent manner, whereas infusion of bethanechol evoked a tonic vasoconstriction without producing tachyphylaxis. Bethanechol-induced phasic vasoconstriction was eliminated by perfusion with a Ca2+-free buffer. The L-type voltage- operated Ca2+ channel blocker nifedipine decreased the maximal constrictor response to bethanechol by 59 ± 2% (n = 4, P < .001), whereas the putative receptor-operated Ca2+ channel blocker SK and F 96365 converted this vasoconstriction into vasodilation that was not mediated by nitric oxide. The protein kinase C inhibitor chelerythrine reduced the maximal phasic vasoconstrictor response to bethanechol by 78 ± 2% (n = 6, P < .001) Bethanechol-induced tonic vasoconstriction was rapidly converted to a sustained vasodilation during infusion of SK and F 96365 or nifedipine, whereas infusion of chelerythrine gradually attenuated the tonic response to bethanechol. Results from other experiments do not support a role for phospholipase A2-dependent mediators in generating coronary vasoconstrictor responses to bethanechol. It is concluded that voltage-independent receptor- operated Ca2+ channels, voltage-operated Ca2+ channels, and protein kinase C are major signaling components for muscarinic receptor-mediated contraction of rat coronary resistance arteries.

Biomedical Sciences

Tachykinin Receptor Subtypes in the Isolated Guinea Pig Heart and Their Role in Mediating Responses to Neurokinin A

Chang, Yingzi, Hoover, Donald B., Hancock, John C., Smith, Frank M.

01 July 2000

Selective tachykinin agonists were used to identify cardiac and coronary responses mediated by specific tachykinin receptor subtypes in isolated, perfused guinea pig hearts. Receptor desensitization with selective agonists and blockade with selective antagonists were used to determine the role of specific subtypes in generating responses to neurokinin A (NKA). Dose- dependent cardiac and coronary effects were evoked by bolus injections of [Sar9,Met(O2)11]substance P ([Sar9,Met(O2)11]SP), GR64349, and [MePhe7]neurokinin B ([MePhe7]NKB) (selective agonists for NK1, NK2, and NK3 receptors, respectively). Each agonist caused bradycardia, but GR64349 was most effective (34 ± 4% decrease in heart rate with 32 nmol, n = 8). Prominent increases in ventricular contractility and perfusion pressure also occurred with 32 nmol of GR64349 (25 ± 6 and 33 ± 4%, respectively). [Sar9,Met(O2)11]SP was unique in having a high potency for decreasing ventricular contractility and perfusion pressure. Bolus injections of 25 nmol of NKA decreased rate (48 ± 2%, n = 51), increased contractility (26 ± 2%), and had biphasic effects on perfusion pressure (24 ± 1% decrease followed by 9.2 ± 1.4% increase). Desensitization with GR64349 or treatment with the NK2 antagonist SR48968 reduced the bradycardic response to NKA by greater than 75% and eliminated the positive inotropic response. The remaining bradycardia occurred through NK3 receptors. Desensitization with [Sar9,Met(O2)11]SP or NK1 blockade with FK888 eliminated the coronary relaxant action of NKA and enhanced the pressor response. It is concluded that three tachykinin receptor subtypes are present in the guinea pig heart and that each contributes to the overall response evoked by NKA.

Biomedical Sciences

Topical Absorption of Isopropyl Alcohol Induced Cardiac and Neurologic- Deficits in an Adult Female-With Intact Skin

Leeper, Stephanie C., Almatari, Abdul Latief, Ingram, Jonathan D., Ferslew, Kenneth E.

01 February 2000

Topical exposure to isopropyl alcohol has been reported in the literature to be toxic if sufficient isopropyl alcohol is absorbed (I-S). A clinical case is reported where a 48-y-old female presented with multiple unexplained cardiac and neurological deficits. The woman had developed the deficits over a 6-mo period in which she had been soaking towels with isopropyl alcohol and applying then to her skin overnight to ease arm pain she was experiencing. Cessation of the isopropyl alcohol exposure resolved her deficits within 3 d. A controlled repeat dermal exposure to isopropyl alcohol under clinical observation reproduced the deficits noted with corresponding serum and urine concentrations of isopropyl alcohol and acetone. Cessation of topical isopropyl alcohol exposure lead to subsequent resolution of all toxicities.

Biomedical Sciences

25-Hydroxycholesterol Activates a Cytochrome C Release-Mediated Caspase Cascade

Yang, Lin, Sinensky, Michael S.

30 November 2000

We have previously shown that 25-hydroxycholesterol (25-OHC) treated CHO-K1 cells could be used as a model to investigate the signaling pathway of apoptosis induced by oxidized LDL in vascular cells. In the present study, we examine the execution phase of the apoptotic pathway in CHO-K1 cell death induced by 25-OHC. Oxysterol-induced apoptosis in CHO-K1 was accompanied by caspase activation and was preceded by mitochondrial cytochrome c release. The addition of a competitive caspase-3 inhibitor, Ac-DEVD-CHO, prevented 25-OHC-induced apoptotic cell death. Furthermore, immunoblot analysis showed that 25-OHC treatment induced the degradation of poly(ADP-ribose) polymerase (PARP) - a substrate for caspase 3 and a key enzyme involved in genome surveillance and DNA repair. Thus, we could demonstrate in CHO-K1 cells that 25-OHC activates the apoptotic machinery through induction of the release of cytochrome c from mitochodria into the cytosol and activation of a typical caspase cascade.

Biomedical Sciences

Functional Interdependence of Neurons in a Single Canine Intrinsic Cardiac Ganglionated Plexus

Thompson, G. W., Collier, K., Ardell, J. L., Kember, G., Armour, J. A.

01 November 2000

1. To determine the activity characteristics displayed by different subpopulations of neurons in a single intrinsic cardiac ganglionated plexus, the behaviour and co-ordination of activity generated by neurons in two loci of the right atrial ganglionated plexus (RAGP) were evaluated in 16 anaesthetized dogs during basal states as well as in response to increasing inputs from ventricular sensory neurites. 2. These sub-populations of right atrial neurons received afferent inputs from sensory neurites in both ventricles that were responsive to local mechanical stimuli and the nitric oxide donor nitroprusside. Neurons in at least one RAGP locus were activated by epicardial application of veratridine, bradykinin, the β1-adrenoceptor agonist prenaterol or glutamate. Epicardial application of angiotensin II, the selective β2-adrenoceptor agonist terbutaline and selective α-adrenoceptor agonists elicited incosistent neuronal responses. 3. The activity generated by both populations of atrial neurons studied over 5 min periods during basal states displayed periodic coupled behaviour (cross-correlation coefficients of activities that reached, on average, 0.88 ± 0.03; range 0.71-1) for 15-30 s periods of time. These periods of coupled activity occurred every 30-50 s during basal states, as well as when neuronal activity was enhanced by chemical activation of their ventricular sensory inputs. 4. These results indicate that neurons throughout one intrinsic cardiac ganglionated plexus receive inputs from mechano- and chemosensory neurites located in both ventricles. That such neurons respond to multiple chemical stimuli, including those liberated from adjacent adrenergic efferent nerve terminals, indicates the complexity of the integrative processing of information that occurs within the intrinsic cardiac nervous system. 5. It is proposed that the interdependent activity displayed by populations of neurons in different regions of one intrinsic cardiac ganglionated plexus, responding as they do to multiple cardiac sensory inputs, forms the basis for integrated regional cardiac control.

Biomedical Sciences

Evernimicin (SCH27899) Inhibits Both Translation and 50S Ribosomal Subunit Formation in Staphylococcus Aureus Cells

Champney, W. Scott, Tober, Craig L.

20 June 2000

The effects of the everninomicin antibiotic evernimicin (SCH27899) on growing Staphylococcus aureus cells were investigated. Cellular growth rates and viable cell numbers decreased with increasing antibiotic concentrations. The rate of protein synthesis, measured as 35S-amino acid incorporation, declined in parallel with the growth rate. Significantly, the formation of the 50S ribosomal subunit was inhibited in a dose-dependent fashion as well. 30S ribosomal subunit synthesis was not affected over the same concentration range. Evernimicin did not stimulate the breakdown of mature ribosomal subunits. Pulse-chase labeling experiments revealed a reduced rate of 50S subunit formation in drug-treated cells. Two erythromycin-resistant strains of S. aureus that carried the ermC gene were as sensitive as wild-type cells to antibiotic inhibition. In addition, two methicillin-resistant S. aureus organisms, one sensitive to erythromycin and one resistant to the macrolide, showed similar sensitivities to evernimicin. These results suggest a use for this novel antimicrobial agent against antibiotic-resistant bacterial infections.

Biomedical Sciences

Changes in Period mRNA Levels in the Brain and Division of Labor in Honey Bee Colonies

Toma, Dan P., Bloch, Guy, Moore, Darrell, Robinson, Gene E.

06 June 2000

Previous research showed that age-related division of labor in honey bees is associated with changes in activity rhythms; young adult bees perform hive tasks with no daily rhythms, whereas older bees forage with strong daily rhythms. We report that this division of labor is also associated with differences in both circadian rhythms and mRNA levels of period, a gene well known for its role in circadian rhythms. The level of period mRNA in the brain oscillated in bees of all ages, but was significantly higher at all times in foragers. Elevated period mRNA levels cannot be attributed exclusively to aging, because bees induced to forage precociously because of a change in social environment had levels similar to normal age foragers. These results extend the regulation of a 'clock gene' to a social context and suggest that there are connections at the molecular level between division of labor and chronobiology in social insects.

Biomedical Sciences

The Heart Reinnervates After Transplantation

Murphy, David A., Thompson, Gregory W., Ardell, Jeffrey L., McCraty, Rollin, Stevenson, Robert S., Sangalang, Virgilio E., Cardinal, René, Wilkinson, Michael, Craig, Sylvia, Smith, Frank M., Kingma, John G., Armour, J. Andrew

01 June 2000

Background. Whether cardiac reinnervation occurs after transplantation remains controversial. If reinnervation does occur, how sympathetic and parasympathetic efferent neurons do this remains unknown. Methods. Power spectral analysis of heart rate variability was assessed for 1 year after cardiac autotransplantation in 9 dogs. After induction of anesthesia 13 months after transplantation, cardiac and intrinsic cardiac neuronal responses elicited by both electrical stimulation of parasympathetic or sympathetic efferent neurons and systemic or local coronary artery administration of nicotine (5 μg/kg), angiotensin II (0.75 μg/kg), and tyramine (1.2 μg/kg) were studied. The transmembrane electrical properties of intrinsic cardiac neurons were studied in vitro. Ventricular tissue catecholamine content, α-tubulin expression, and β-adrenergic receptor density and affinity were studied. The presence of axons crossing suture lines was sought histologically. Results. Nerves were identified crossing suture lines. Electrical or chemical (ie, nicotine or angiotensin II) activation of sympathetic efferent neurons enhanced cardiodynamics, as did tyramine. Stimulating vagal efferent preganglionic axons induced bradycardia in half of the dogs. Functional reinnervation did not correlate with specific power spectra derived from rate variability in the conscious state. Responding to nicotine and angiotensin II in situ, transplanted intrinsic cardiac neurons generated spontaneous activity. These neurons displayed nicotine-dependent synaptic inputs in vitro. Ventricular tissue had normal β-adrenergic receptor affinity and density but reduced catecholamine and α- tubulin contents. Conclusions. The intrinsic cardiac nervous system receives reduced input from extracardiac sympathetic efferent neurons after transplantation and inconsistent input from parasympathetic efferent preganglionic neurons. These heterogeneous neuronal inputs are not reflected in heart rate variability or ventricular β-adrenergic receptor function. Transplanted angiotensin II-sensitive intrinsic cardiac neurons exert greater cardiac control than do nicotine-sensitive ones. The intrinsic cardiac nervous system remodels itself after cardiac transplantation, and this indicates that direct assessment of extracardiac and intrinsic cardiac neuronal behavior is required to fully understand cardiac control after transplantation.

Biomedical Sciences

Network Interactions Within the Canine Intrinsic Cardiac Nervous System: Implications for Reflex Control of Regional Cardiac Function

Beaumont, Eric, Salavatian, Siamak, Southerland, Elizabeth M., Vinet, Alain, Jacquemet, Vincent, Armour, J. A., Ardell, Jeffrey L.

01 September 2013

The aims of the study were to determine how aggregates of intrinsic cardiac (IC) neurons transduce the cardiovascular milieu versus responding to changes in central neuronal drive and to determine IC network interactions subsequent to induced neural imbalances in the genesis of atrial fibrillation (AF). Activity from multiple IC neurons in the right atrial ganglionated plexus was recorded in eight anaesthetized canines using a 16-channel linear microelectrode array. Induced changes in IC neuronal activity were evaluated in response to: (1) focal cardiac mechanical distortion; (2) electrical activation of cervical vagi or stellate ganglia; (3) occlusion of the inferior vena cava or thoracic aorta; (4) transient ventricular ischaemia, and (5) neurally induced AF. Low level activity (ranging from 0 to 2.7 Hz) generated by 92 neurons was identified in basal states, activities that displayed functional interconnectivity. The majority (56%) of IC neurons so identified received indirect central inputs (vagus alone: 25%; stellate ganglion alone: 27%; both: 48%). Fifty per cent transduced the cardiac milieu responding to multimodal stressors applied to the great vessels or heart. Fifty per cent of IC neurons exhibited cardiac cycle periodicity, with activity occurring primarily in late diastole into isovolumetric contraction. Cardiac-related activity in IC neurons was primarily related to direct cardiac mechano-sensory inputs and indirect autonomic efferent inputs. In response to mediastinal nerve stimulation, most IC neurons became excessively activated; such network behaviour preceded and persisted throughout AF. It was concluded that stochastic interactions occur among IC local circuit neuronal populations in the control of regional cardiac function. Modulation of IC local circuit neuronal recruitment may represent a novel approach for the treatment of cardiac disease, including atrial arrhythmias.

Biomedical Sciences