Jerry M. Farley

Single chloride channel currents from canine tracheal epithelial cells

Patch-clamp techniques were used to characterize the properties of anion-selective channels in canine tracheal epithelial cells that had been maintained in primary culture. Gigaohm seals (10-30 G omega) were obtained in single isolated cells or cells at the edge of a confluent sheet, and channels were studied in the cell attached or the inside-out, excised patch configuration. Pretreatment with isotonic KCl caused the cells to round-up and allowed us to have better success in obtaining good seals. Based on conductance, anion-cation selectivity and voltage-dependent kinetic properties, four anion channel types could be detected in symmetrical solutions of 0.15 M NaCl: (i) a 30-50 pS Cl- channel of high selectivity, active at negative potentials and inactivated by large positive potentials; (ii) an approx. 20 pS Cl- channel of high selectivity, active at positive potentials and inactivated at negative potentials; (iii) an approx. 250 pS channel of moderate selectivity (PCl/PNa = 4) that was not voltage-dependent, and (iv) an approx. 10 pS Cl- channel with characteristics similar to (iii) above, but remaining somewhat active at large negative voltages. All excised patches were exposed to relatively high calcium concentrations on the intracellular side. Channel activity was increased in tracheal cells treated with 1 mM cAMP, suggesting that at least one of these channels plays a role in the increase of the apical membrane Cl- conductance that is mediated by cAMP and elicited by agonists of active Cl- secretion.

Glutamate receptor antagonists block cocaine-induced convulsions and death

The involvement of excitatory amino acid (EAA) receptors in mediation of the toxic effects of cocaine was studied in male ICR mice. Cocaine HCl (90 mg/kg, IP) induced seizures in 95% and death within 24 h in 68% (n = 135) of the animals. There was a significant correlation (r = .54) between the time to onset of convulsions and the time to death in mice which died within 30 min of injection (n = 84). Pretreatment with selected EAA receptor antagonists 15 min prior to cocaine differentially blocked cocaine toxicity. Selective N-methyl-D-aspartic acid (NMDA) receptor antagonists (MK-801, dextrorphan, CPP) decreased both the incidence of seizures and mortality. A nonselective EAA antagonist, kynurenic acid, decreased lethality in doses which did not reduce convulsions. A similar action was observed following pretreatment with the selective kainic acid/AMPA receptor antagonist, GDEE. Antagonists at EAA receptors can provide significant protection against cocaine-induced toxicity. Moreover, the data provide evidence for the involvement of both NMDA and non-NMDA receptor subtypes in aspects of cocaine toxicity.

Effects of first and second generation antihistamines on muscarinic induced mucus gland cell ion transport

BackgroundThe first generation antihistamines, such as diphenhydramine, are fairly potent muscarinic antagonists in addition to being H1 selective antihistamines. The antimuscarinic action is often not desirable since it is in part responsible for the drying of secretions in the airways and the sedative effect. We therefore examined a number of antihistamines for antimuscarinic effects on ion transport by mucus gland cells isolated from the airways of swine. Enzymatically isolated airway mucus gland cells were purified utilizing density gradients and grown in culture on porous inserts (Millicell HA™) at an air interface. Cells grown in this manner maintain phenotype and polarity. Transport of ions, as short-circuit current measured under voltage-clamp, was measured in response to acetylcholine (ACh) or histamine applied to the serosal side of the gland cell layers. Concentration-response relationships for ACh or histamine were generated in the presence and absence of various drugs. The potencies against muscarinic receptor activation were estimated using the dose-ratio method of Schild.ResultsThree known muscarinic antagonists were used to validate the system. Atropine had a pA2 of 9.4 ± 0.1 (n = 9). 4-DAMP and methoctramine had pA2 values of 8.6 ± 0.1 and 5.6 ± 0.1, respectively (n = 12, 11) all consistent with inhibition of an M3 subtype muscarinic receptor. The rank order of potency of the antihistamines against the inhibition of M3 receptors was desloratadine = diphenhydramine > hydroxyzine (pA2; 6.4, 6.2, 4.8, respectively). pA2 values for fexofenadine, loratadine and cetirizine were not determined since they had no effect on the cholinergic response at the highest drug concentrations tested (10, 10 and 100 μM, respectively). The pA2 values for the antihistamines against the histamine response could not be calculated, but the estimates of the rank order of potency were estimated to be desloratadine> cetirizine ≈ hydroxyzine > fexofenadine > loratadine > diphenhydramine.ConclusionThe rank order of selectivity for histamine receptors over muscarinic receptors was estimated to be cetirizine ≈ fexofenadine > loratadine > desloratadine ≥ hydroxyzine ≥ diphenhydramine.

Molecular Mechanisms of Renal Blood Flow Autoregulation

Diabetes and hypertension are the leading causes of chronic kidney disease and their incidence is increasing at an alarming rate. Both are associated with impairments in the autoregulation of renal blood flow (RBF) and greater transmission of fluctuations in arterial pressure to the glomerular capillaries. The ability of the kidney to maintain relatively constant blood flow, glomerular filtration rate (GFR) and glomerular capillary pressure is mediated by the myogenic response of afferent arterioles working in concert with tubuloglomerular feedback that adjusts the tone of the afferent arteriole in response to changes in the delivery of sodium chloride to the macula densa. Despite intensive investigation, the factors initiating the myogenic response and the signaling pathways involved in the myogenic response and tubuloglomerular feedback remain uncertain. This review focuses on current thought regarding the molecular mechanisms underlying myogenic control of renal vascular tone, the interrelationships between the myogenic response and tubuloglomerular feedback, the evidence that alterations in autoregulation of RBF contributes to hypertension and diabetes-induced nephropathy and the identification of vascular therapeutic targets for improved renoprotection in hypertensive and diabetic patients.

Allopregnanolone Reinstates Tyrosine Hydroxylase Immunoreactive Neurons and Motor Performance in an MPTP-Lesioned Mouse Model of Parkinson's Disease

Restorative/protective therapies to restore dopamine neurons in the substantia nigra pars compacta (SNpc) are greatly needed to effectively change the debilitating course of Parkinsons disease. In this study, we tested the therapeutic potential of a neurogenic neurosteroid, allopregnanolone, in the restoration of the components of the nigrostriatal pathway in MPTP-lesioned mice by measuring striatal dopamine levels, total and tyrosine hydroxylase immunoreactive neuron numbers and BrdU-positive cells in the SNpc. An acute treatment (once/week for two weeks) with allopregnanolone restored the number of tyrosine hydroxylase-positive and total cell numbers in the SNpc of MPTP-lesioned mice, even though this did not increase striatal dopamine. It was also noted that MPTP treated mice to which allopregnanolone was administered had an increase in BrdU-positive cells in the SNpc. The effects of allopregnanolone in MPTP-lesioned mice were more apparent in mice that underwent behavioral tests. Interestingly, mice treated with allopregnanolone after MPTP lesion were able to perform at levels similar to that of non-lesioned control mice in a rotarod test. These data demonstrate that allopregnanolone promotes the restoration of tyrosine hydroxylase immunoreactive neurons and total cells in the nigrostriatal tract, improves the motor performance in MPTP-treated mice, and may serve as a therapeutic strategy for Parkinsons disease.

Cardiodepressant and neurologic actions of Solenopsis invicta (imported fire ant) venom alkaloids

BACKGROUND We hypothesized that the alkaloid compounds that are the majority components of fire ant (Solenopsis invicta) venom are capable of producing cardiovascular and central nervous system toxic effects in mammals. OBJECTIVE To evaluate toxic effects of synthetic S. invicta alkaloids in rodent models. METHODS Cardiovascular effects of intravenous injection of the racemic (+/-)-cis- and trans-isomers of 2-methyl-6-nundecylpiperidine (isosolenopsin A and solenopsin A, respectively) were evaluated in anesthetized, gallamine-paralyzed rats who had received artificial ventilation and in isolated, perfused rat hearts. RESULTS (+/-)-Solenopsin A dose dependently (3-30 mg/kg [10 to 104 micromol/kg]) depressed cardiovascular function. Maximal percent changes following injection of 30 mg/kg were -42.96% +/- 5.8% for blood pressure, -29.13% +/- 3.6% for heart rate, and -43.5% +/- 9.2% for left ventricular contractility (dP/dt). (+/-)-Isosolenopsin A (3-15 mg/kg [10 to 52 micromol/kg]) produced responses similar to those seen with the corresponding doses of solenopsin A. In conscious, spontaneously breathing rats, solenopsin A (30 mg/kg intravenously) caused seizures, respiratory arrest, and death. Infusion of working, isolated, perfused hearts with solenopsin A reduced contractile function (dP/dt) at 10 microM and caused cardiac arrest at 100 microM. CONCLUSIONS Two alkaloid components of imported fire ant venom possess robust cardiorespiratory depressant activity and elicit seizures in the rat. Such effects identify these alkaloids as toxic compounds in biological systems and may explain the cardiorespiratory failure noted in some individuals who experience massive fire ant stings.

Allopregnanolone Increases the Number of Dopaminergic Neurons in Substantia Nigra of a Triple Transgenic Mouse Model of Alzheimer’s Disease

More than a third of Alzheimers disease (AD) patients show nigrostriatal pathway disturbances, resulting in akinesia (inability to initiate movement) and bradykinesia (slowness of movement). The high prevalence of this dysfunction of dopaminergic neuron in the nigrostriatal pathway in AD suggests that the risk factors for AD appear also significant risk factors for substantia nigra pars compacta (SNpc) lesions. Previously, we have demonstrated that allopregnanolone (APα) promotes neurogenesis and improves the cognitive function in a triple transgenic mouse model of AD (3xTgAD). In this study, we sought to exam 1) the SNpc lesions in 3xTgAD mice and 2) the impact of APα on promoting the regeneration of new dopaminergic neurons in SNpc of the 3xTgAD mice. The number of Nissl-stained total neurons, tyrosine hydroxylase (TH) positive neurons, and BrdU/TH double positive newly formed neurons were analyzed with unbiased stereology. In the SNpc of 3xTgAD mice, TH positive neurons was 47+- 18 % (p = 0.007), total neurons was 62 +-11.6 % (p = 0.016), of those in the SNpc of non-Tg mice, respectively. APα treatment increased the TH positive neurons in the SNpc of 3xTgAD mice to 93.2 +- 18.5 (p = 0.021 vs. 3xTgAD vehicle) and the total neurons to 84.9+- 6.6 (p = 0.046 vs. 3xTgAD vehicle) of non-Tg mice. These findings indicate that there is a loss of neurons, specifically the TH positive neurons in SNpc of 3xTgAD mice, and that APα reverses the lesion in SNpc of 3xTgAD by increasing the formation of new TH neurons.

Cardiac toxicity of some echinocandin antifungals

Background: Unexplained cardiovascular decompensation has been observed during central venous administration of some echinocandins. Objective: The purpose of this study was to assess cardiac toxicity associated with the echinocandins. Methods: Isolated rat hearts (Langendorff model) were perfused with anidulafungin (ANID), caspofungin (CASP), or micafungin (MICA) at exposures of 1, 4, and 10 times therapeutic concentrations. Changes in left ventricular contractility with experimental exposure were compared to control, and histologic and transmission electron microscopy (TEM) examinations of tissue were performed. Results: Mean concentrations of ANID (10 – 80 µg/ml) and CASP (6 – 48 µg/ml) were associated with significant decreases in contractility (-77.1 ± 9.4% and -40.6 ± 15.6%, respectively; p < 0.05). MICA was associated with an increase in contractility (13.6 ± 2.8%, p = NS). On TEM, samples exposed to ANID and CASP had enlarged mitochondria and disintegrating myofibrils. Samples exposed to MICA showed some enlarged mitochondria. Conclusion: Mean concentrations of ANID and CASP were associated with statistically significant decreases in left ventricular contractility at concentrations that may be achievable in humans after peripheral administration, while MICA caused no change. TEM studies suggest this may be a result of mitochondrial damage. Caution may be warranted with central administration of these agents to patients with preexisting cardiac dysfunction.

Macrolide Antibiotics Inhibit Mucus Secretion and Calcium Entry in Swine Airway Submucosal Mucous Gland Cells

Macrolide antibiotics such as erythromycin (EM) and azithromycin (AZM) are beneficial in the treatment of mucus hypersecretion in inflammatory pulmonary diseases. Several indirect and direct mechanisms of action have been proposed. This study investigates the direct effect of macrolides on secretory function of isolated submucosal mucous gland cells (SMGCs). We hypothesize that macrolides inhibit the calcium influx necessary for evoked mucus secretion. To test this, we quantified mucin protein release using enzyme-linked immunosorbent assay, calcium-activated K+ (KCa), and calcium-activated Cl− (ClCa) currents. We measured nonselective cation current (NSCC) using whole-cell patch-clamp techniques; intracellular calcium concentration ([Ca2+]i) was measured using fura-2 Ca2+ imaging. We found that both EM and AZM are agonists at muscarinic receptors. EM (10 μM) evoked a small but significant increase in mucin release but inhibited the mucin release induced by subsequent acetylcholine (ACh) treatment. Both EM and AZM (10 μM) evoked KCa and ClCa whole-cell currents, which were blocked by atropine. EM and AZM also accelerated the decay of inositol trisphosphate-induced KCa and ClCa currents without changing the peak current amplitudes. Likewise, internal application of AZM (10 μM) enhanced the decay rate of ACh-induced KCa and ClCa currents. EM (1–10 μM) and AZM (0.1–10 μM) slowly (over 25–30 min) inhibited thapsigargin (TG)-induced Ca2+ entry when applied during the plateau phase of Ca2+ entry but blunted TG-induced Ca2+ entry by 70% after a 5-min pretreatment before initiating calcium entry. EM blocked TG-induced NSCC. We conclude that macrolide antibiotics are partial agonists at muscarinic receptors but inhibit stimulated mucus release by inhibiting calcium entry in SMGCs.

Enhanced large conductance K+ channel activity contributes to the impaired myogenic response in the cerebral vasculature of Fawn Hooded Hypertensive rats

Recent studies have indicated that the myogenic response (MR) in cerebral arteries is impaired in Fawn Hooded Hypertensive (FHH) rats and that transfer of a 2.4 megabase pair region of chromosome 1 (RNO1) containing 15 genes from the Brown Norway rat into the FHH genetic background restores MR in a FHH.1(BN) congenic strain. However, the mechanisms involved remain to be determined. The present study examined the role of the large conductance calcium-activated potassium (BK) channel in impairing the MR in FHH rats. Whole-cell patch-clamp studies of cerebral vascular smooth muscle cells (VSMCs) revealed that iberiotoxin (IBTX; BK inhibitor)-sensitive outward potassium (K+) channel current densities are four- to fivefold greater in FHH than in FHH.1(BN) congenic strain. Inside-out patches indicated that the BK channel open probability (NPo) is 10-fold higher and IBTX reduced NPo to a greater extent in VSMCs isolated from FHH than in FHH.1(BN) rats. Voltage sensitivity of the BK channel is enhanced in FHH as compared with FHH.1(BN) rats. The frequency and amplitude of spontaneous transient outward currents are significantly greater in VSMCs isolated from FHH than in FHH.1(BN) rats. However, the expression of the BK-α and -β-subunit proteins in cerebral vessels as determined by Western blot is similar between the two groups. Middle cerebral arteries (MCAs) isolated from FHH rats exhibited an impaired MR, and administration of IBTX restored this response. These results indicate that there is a gene on RNO1 that impairs MR in the MCAs of FHH rats by enhancing BK channel activity.