Roles of Calcium Ions and Cyclic AMP in Olfactory Transduction

Winegar, Bruce D. (Bruce David)

12 1900

The roles of Ca2 + and cAMP in olfactory transduction were explored using agents which affect calcium channels and second messenger systems. These agents were applied at certain calculated final concentrations onto olfactory epithelia of urethane-anesthetized frogs (Sana PiPlens) by two-sec aerosol spray. During extracellular recording, saturated vapors of isoamyl acetate were delivered every 100 sec in 0.3 sec pulses to produce an electroolfactogram (EOG). Inorganic cations that block inward calcium currents inhibit EOG responses with the following rank order: (La3+) > (Zn2+, Cd2+) > (Al3+, Ca2+, Sr2+) > (Co2+). Application of 7.5 mM La3+ eradicates £0G's, while Ba2+ (which can carry more current that Ca2+) initially produces significant enhancement (F=43.04, p<0.001, df=19). Magnesium ion has no effect on EOG's at 7.5 mM, while 1.5 X 10"4M Ca2+ is significantly inhibitory (F=5.74; p=0.0355; df=12). Control aerosol sprays of distilled water depress EOG's by an average of 5%. The organic calcium channel antagonists diltiazem and verapamil inhibit EOG's by 17% and 36X, respectively, at a concentration of 1.5 X 10~*M. Verapamil produces significant inhibition (F=17.17; p=0.002; df=ll) at 1.5 X 10" 5 M, while the 1,4-dihydropyridine calcium channel antagonists, nicardipine and nifedipine, do not inhibit beyond 1% DMSO controls. Several calmodulin antagonists decrease EOG's, but without correlation to their anti-calmodulin potency. Application of 1.5 X 10"*M chlorpromazine and N-(6-aminohexyl)-5-chloro-l-naphthalenesulfonamide inhibit EOG's by 31% and 27%, respectively, while trifluoperazine inhibits by 23%. Dibutyryl cAMP, a lipophilic mimic of cAMP, produces 54% inhibition at 1.5 X 10" *M. Dibutyryl cGMP, cGMP, cAMP, and adenosine all decrease EOG's by less than 15% compared to distilled water controls. Forskolin, a reversible activator of adenylate cyclase, inhibits EOG's by 57% at 1.5 X 10"5M, which is significant beyond the 1% DMSO controls (F=17.17; p=0.002; df=ll). These data support the hypothesis that Ca2+ participates in olfactory transduction. Calcium ions could serve as charge carriers, second messengers, or both. Cyclic AMP could be involved with the primary excitatory process or sensory adaptation, or both.

olfactory senses

calcium ions

intracellular signal transduction

Calcium ions -- Physiological effect.

Olfactometry.

Olfactory nerve.

Maintaining Cardiac and Gastric Physiology: TRIM Proteins as Central Factors in Regulation of Organ Homeostasis at the Cellular Level

Gumpper, Kristyn Nicole

02 October 2019

No description available.

Biomedical Research

TRIM50

MG53

mitochondria

oxidative stress

cardioprotection

gastric acid secretion

intracellular buffering

Charakterizace extracelulárních enzymů a dalších metabolitů karotenogenních kvasinek / Characterization of extracellular enzymes and other metabolites of carotenogenic yeasts

Těšíková, Karolína

January 2019

Lipases are enzymes catalyzing primarily the hydrolytic cleavage of triacylglycerol bonds. The production of lipolytic enzymes is known in many microorganisms, especially those who are able to utilize a fatty carbon substrate. Some genera of carotenogenic yeasts are characterized by this ability. Carotenogenic yeasts are characterized primarily by the formation of intracellular carotenoids, lipids and lipid-soluble substances. In addition to these metabolites, they may also produce some biosurfactants. This work deals with the production of extracellular lipolytic enzymes and biosurfactants by carotenogenic yeasts Rhodotorula glutinis, Cystofilobasidium macerans, Rhodotorula mucilaginosa and Sporidiobolus pararoseus cultivated mainly on animal waste fat at various C/N ratios (13, 25, 50, 100). Lipase activity was detected in all strains studied. Enzyme activities were measured by spectrophotometric method. Lipase induction has also been observed during cell growth, where several peaks of lipase activity have been reported, suggesting cell-associated lipase and lipase secreted into the environment. Lipase activities have also been found in cultures on glucose and glycerol carbon substrates. Further, the molecular characterization of lipolytic enzymes was performed using polyacrylamide gel electrophoresis. The formation of biosurfactants is to some extent formed by all strains. In particular, the biosurfactants of C. macerans and S. pararoseus yeast have emulsifying and solubilizing properties. Simultaneously with the production of lipase and biosurfactants, the production of characteristic high value added intracellular metabolites in S. pararoseus and R. mucilaginosa was evaluated too.

Macropinocytosis-Inducing Peptides: Identification, Utility, and Mechanism-of-Action / 新規マクロピノサイトーシス誘導ペプチドの同定、細胞内送達への有用性と作用様式

Arafiles, Jan Vincent Valenzuela

23 September 2020

京都大学 / 0048 / 新制・課程博士 / 博士(薬科学) / 甲第22753号 / 薬科博第127号 / 新制||薬科||14(附属図書館) / 京都大学大学院薬学研究科薬科学専攻 / (主査)教授 二木 史朗, 教授 中山 和久, 教授 髙倉 喜信 / 学位規則第4条第1項該当 / Doctor of Pharmaceutical Sciences / Kyoto University / DFAM

macropinocytosis-inducing peptide

intracellular delivery

endosome escape

thiol-disulfide exchange reaction

dimerization

499.3

Designing Chemical Strategies to Promote Therapeutic Access to Restricted Sites In Cyto

Jennifer L Rowe (8052164)

28 November 2019

Therapeutically restricted sites present a formidable barrier in medicine. Herein, chemical strategies to overcome two restricted sites, HIV reservoirs and intracellular bacteria, will be discussed. First, cellular and anatomical HIV reservoirs, such as those in the brain, limit HIV eradication using currently known therapeutic regimes. HIV therapies are unable to localize in the brain, in part, due to high expression of efflux transporters, such as P-glycoprotein (P-gp), at the BBB, because many of these therapies are P-gp substrates. In an effort to overcome therapeutically restricted HIV sanctuaries, a dimerized combination HIV therapy was designed to act two-fold. First, the dimeracts as a P-gp inhibitor allowing therapeutic access to restricted sites. Second, the dimeractsas a prodrug, which once in the reducing environment of the cell, may release monomeric HIV therapies. The dual conjugate, Abacavir-S2-Darunavir, was shown to potently inhibit P-gp across two separate cell lines, was able to regenerate the component monomers in a reducing environment and contained modest anti-HIV activity.<div><br><div>Further, mammalian cells create sanctuary sites for bacteria to grow and proliferate, because many common antibiotic therapies are unable to cross the mammalian cell membrane. Therefore, these pathogens are able to proliferate without therapeutic constraint. Here, a chemical strategy was developed to deliver a dual antibiotic therapy inside mammalian cells in an effort to clear these intracellular pathogens. First, a new synthetic strategy was developed for facile synthesis of dual conjugates, composedof an aminoglycoside and a cell penetrating peptide (CPP) linked with a reversible disulfide tether, using kanamycin and the known CPP Arg8as a model system. Next, this synthetic methodology was expanded for use with theaminoglycoside tobramycin and theknown broad-spectrum antibiotic and cell penetrating peptide, P14LRR, once again linked via the reversible disulfide tether (TobP14). Two distinct isomers of TobP14 were synthesized, isolated, and fully characterized by 2D NMR. The TobP14 isomers were shown to be an effective antibiotic across various Gram positive and negative pathogens such as MRSA, S. epidermidis, P. aeruginosa, and A. baumannii. Further, the isomers effectively releasedthe monomeric therapies (tobramycin and P14-SH) in a reducing environment and werenontoxic to mammalian cells up to 16 μM. Finally, the dual conjugate isomers significantly reduce two different strains of intracellular A. baumanniiwithin macrophages.<br><div><br></div><div><br></div></div></div>

Organic Chemistry

Dual conjugates

P-gp

Intracellular bacteria

Cell penetrating peptides

HIV Reservoirs

Mécanismes moléculaires contrôlant l’ubiquitination et l’endocytose du transporteur de fer IRON-REGULATED TRANSPORTER 1 d’Arabidopsis thaliana / Molecular mechanisms driving the ubiquitination and endocytosis of the Arabidopsis iron transporter IRON-REGULATED TRANSPORTER 1

Dubeaux, Guillaume

08 December 2016

L’ubiquitination est une modification post-traductionnelle qui joue un rôle majeur chez les organismes vivants. Chez Arabidopsis thaliana, le transporteur de fer racinaire IRT1 est endocyté à la suite de la monoubiquitination de deux résidus lysine situés au niveau de sa grande boucle cytosolique. Cependant, les mécanismes régissant l’endocytose médiée par l’ubiquitine ainsi que son rôle biologique restent flous. Au cours de ma Thèse, j’ai mis en évidence que la dynamique d’IRT1 était contrôlée par les métaux substrats secondaires du transporteur (à savoir le zinc, le manganèse et le cobalt). En l’absence de ces métaux, IRT1 est localisé à la membrane plasmique avec une polarité latérale le positionnant sur la face externe des cellules de l’épiderme racinaire. La présence de ces mêmes métaux à un niveau physiologique entraîne la monoubiquitination d’IRT1 et son internalisation vers les endosomes précoces. J’ai démontré que lorsque les métaux substrats secondaires d’IRT1 sont présents en excès, les modifications monoubiquitine sont alors allongées en chaînes de polyubiquitines liées par le résidu lysine-63, entrainant ainsi son adressage vers la vacuole et sa dégradation. Mes travaux ont par ailleurs permis d’élucider les mécanismes moléculaires impliquées dans la réponse des plantes à l’excès de métaux substrats d’IRT1. J’ai notamment montré que l’endocytose d’IRT1 était dépendante i) d’un motif riche en résidus histidine dans la séquence d’IRT1 qui est capable de fixer ces métaux autres que le fer, ii) de la phosphorylation d’IRT1 au niveau d’un résidu thréonine par une protéine kinase en cours d’investigation, et iii) de l’E3 ligase à domaine RING IDF1. D’un point de vue physiologique, l’endocytose d’IRT1 médiée par l’ubiquitine et dépendante des métaux protège la plante d’une suraccumulation de ces métaux autres que le fer qui sont hautement réactifs. / Ubiquitination is a post-translational modification playing a major role in living organisms. In Arabidopsis thaliana, the root iron transporter IRT1 is endocytosed following the monoubiquitination of two lysine residues located in its large cytosolic loop. However, the mechanisms driving IRT1 ubiquitin-mediated endocytosis and its biological relevance remains unclear. During my PhD, I uncovered that IRT1 dynamics is controlled by its secondary metal substrates (i.e. zinc, manganese and cobalt). In the absence of these non-iron metals, IRT1 is found at the cell-surface of root epidermal cells with an outer lateral polarity, while their presence at physiological levels triggers IRT1 monoubiquitination, internalization and accumulation in early endosomes. However, upon non-iron metal excess, monoubiquitin modifications are extended into K63 polyubiquitin chains to promote the vacuolar targeting of IRT1 and its degradation. I investigated further the molecular mechanisms driving plant responses to non-iron metal excess. I notably showed that this regulation by non-iron metals is dependent on i) a histidine-rich stretch in IRT1 that is able to directly bind to non-iron metals, ii) the subsequent recruitment of a kinase currently under investigation which phosphorylates IRT1 at a threonine residue, and iii) the RING E3 ligase IDF1. Altogether, the metal-dependent ubiquitin-mediated endocytosis of IRT1 protects the plant from overaccumulation of highly reactive non-iron metals.

Nutrition métallique

Ubiquitination

Endocytose

Phosphorylation

Trafic intracellulaire

Polarité

Metal nutrition

Ubiquitination

Endocytosis

Phoshorylation

Intracellular trafficking

Polarity

Doppler Fluctuation Spectroscopy in Living Tissues

Zhe Li (8812511)

08 May 2020

<p>Intracellular motions are important signatures of living tissues, and intracellular dynamics reflect overall cell function and health. Traditional microscopy methods can track 2D cellular motions but do not provide an ensemble evaluation of intracellular activity. Biodynamic imaging (BDI) is a unique 3D imaging technique based on the phase shifts of dynamic light scattering and is highly sensitive to intracellular dynamics in living cells and their changes. This makes BDI a versatile tool to evaluate many different types of samples under various scenarios, and BDI has the potential to improve patient diagnosis and to provide valuable information for health care research. This may include evaluating sample activity, profiling patient chemotherapy response, and studying drug mechanisms. This thesis discusses the theory and modeling of BDI, the construction of BDI systems, sample heterogeneity analysis (TDSI), and the use of BDI to study cytoskeletal drug mechanisms, improve embryo selection and select therapies in pre-clinical trials.</p>

Biological Physics

Doppler Fluctuation Spectroscopy

Intracellular dynamics

Biodynamic imaging

Digital Holography

Die toxikologische Relevanz der Zn2+-Freisetzung bei der Degradation von ZnO-Nanopartikeln

Sandner, Julian Christoph

05 September 2016

Nanoobjekte werden als eines der meist untersuchten Forschungsgebiete unserer Zeit immer beliebter in der Industrie, da durch Variation ihrer Strukturen besondere Eigenschaften entlockt werden können, die bei makrokristallinen Kompositionen nicht auftreten. Doch mit Zunahme der Anwendungsbereiche steigt wiederum die Wahrscheinlichkeit einer hohen Exposition, was die toxikologischen Untersuchungen der letzten Jahre bedingte. Allerdings wurden dabei weniger die kausalen Zusammenhänge eruiert. In dieser Arbeit zeigt der Autor die Beziehungen zwischen ZnO-Toxizität und intrazellulärer Zn2+-Konzentrationen auf. Zu diesem Zweck erfolgten Zytotoxizitätsuntersuchungen mittels MTT-Test von ZnO-Nanopartikeln und ZnCl2. Dadurch konnten die toxischen Eigenschaften dieser Agenzien belegt werden. Sowohl Nanopartikel als auch Zn2+ weißen in äquivalenter Gesamtmasse dieselben Toxizitätswerte auf. Nachfolgend wurde die Toxizität I) der Partikel durch Chelatierung der Ionen und II) der freigesetzten Zn2+ durch Abzentrifugieren der Partikel untersucht. Hierbei zeigte sich eine deutlich niedrigere Toxizität der Partikel in Abwesenheit von Zn2+. Hingegen verursachten die partikelfreien Proben allein durch die freigesetzten Zn2+ durchaus vergleichbare Effekte wie die ZnO-Dispersion. Erwähnenswert ist, dass generell eine geringere Toxizität durch FKS-Zugabe vorhanden war. Im Weiteren wurde die intrazelluläre Zn2+-Konzentration in Abhängigkeit der Zinkexposition untersucht. Anhand der Markierung mit dem zinkspezifischen Fluorophor FluoZin-3 erfolgte die quantitative Zn2+-Bestimmung mittels Durchflusszytometrie. Dabei ergab sich ein signifikanter Anstieg der intrazellulären Zn2+-Konzentration, der eine einschneidende Störung der Zinkhomöostase darstellt. Bemerkenswert ist der Anstieg in vitalen Zellen auf ein Vielfaches der Ausgangkonzentration, wobei das Überschreiten von etwa 10 nM zum Übergang in die Nekrose führte. Unabhängig von äußeren Faktoren lagen bei gleichen Toxizitätswerten vergleichbare intrazelluläre Zn2+-Konzentrationen vor. Offenbar gibt es einen direkten Zusammenhang zwischen intrazellulären Zn2+ und der Toxizität. Dieser Sachverhalt kann zur Risikobewertung der Nanopartikel herangezogen werden.

info:eu-repo/classification/ddc/610

ddc:610

Změny vnitrobuněčného pH kvasinek za stresových podmínek / Changes of intracellular pH in yeast cells under stress conditions

Divín, Radek

January 2015

Title: Changes of intracellular pH in yeast cells under stress conditions Author: Radek Divín Department: Institute of Physics of Charles University Supervisor: prof. RNDr. Jaromír Plášek, CSc. Abstract: Specific values of intracellular pH (pHi) can affect all biochemical processes in a cell and this phenomenon is closely connected with the degree of importance of changes in the intracellular pH under the stress conditions. In the Master Thesis, the yeast cells Saccharomyces cerevisiae were used as a model of organism eukaryotic cells. Monitoring of intracellular pH of the cells was performed by the method of synchronous fluorescence scan technique of genetically encoded fluorescent probes pHluorin which was located in the cytosol of the cells. The cells were exposed to stress conditions due to the chemical changes in the environment. Consequently, their ability to maintain a stable value of the intracellular pH in various acidic environments was studied in more detail. The attention was also focused on the impact on optimizing of glucose cytosolic pH. The work was centered on the changes in intracellular pH under the influence of the presence of KCl in suspension. Furthermore, the decrease of cytosolic pH of monitored cells by protonophore CCCP was investigated. The effect of stress environment on the...

Intracellular calcium and transmembrane calcium fluxes in chronic renal failure patients

Koorts, Alida Maria

20 September 2010

Intracellular calcium is a major determinant of a wide variety of cell functions and thus of organ function. In order to get a clear picture of the intracellular calcium status it is preferable to assess the content of the various intracellular calcium pools as well as the characteristics of the transmembrane calcium movements, Le., the magnitude of the transmembrane Ca2+ flux upon stimulation and the rate of the subsequent return to baseline levels. The first aim of this study was to establish and evaluate the methods in the laboratory. The methods investigated include atomic absorption spectrometry, graphite furnace atomic absorption spectrometry and inductively coupled plasma mass spectrometry for the determination of the total cell calcium content, fluorescence spectrophotometry for the determinations of intracellular free Ca2+ and transmembrane Ca2+ movements and transmission electron microscopy for the localisation of intracellular calcium. The methods eventually identified as feasible included fluorescence spectrophotometry for the determination of intracellular free Ca2+ and transmembrane Ca2+ movements and transmission electron microscopy for the localisation of intracellular calcium. The newly developed fluorescent calcium indicator, fura-PE3, was presently shown to be the most reliable fluorescent indicator for the intracellular free Ca2+ determinations. The best method for the calcium localisation by transmission electron microscopy was an adaptation of the antimonate precipitation technique. The following objectives were set in order to contribute to the knowledge in chronic renal failure; examination of the intracellular free Ca2+ content in the neutrophils of end stage renal failure patients on maintenance haemodialysis treatment, as the result of renal failure, dialysis treatment and medication combined; examination of the characteristics of the transmembrane Ca2+ movements; investigation of the intracellular calcium distribution in the neutrophils; exploration of a possible link between the alterations in intracellular calcium status and factors known to influence the calcium status, including the lipid composition of the membrane, the oxidative status as reflected by anti-oxidant vitamin levels, as well as the levels of parathyroid hormone, and ionised serum calcium. This study involved 14 chronic renal failure patients on maintenance haemodialysis. An increase in intracellular free Ca2+, the magnitude of the transmembrane Ca2+ flux upon fMLP stimulation and an increase in the rate of the subsequent decrease in intracellular free calcium were found. In separating the patients into those receiving rHuEPO and those not receiving rHuEPO, it was seen that the significance in the increase in intracellular free Ca2+ could be ascribed to the values obtained in those patients receiving rHuEPO - despite the fact that they were the only patients receiving calcium channel blockers. No overt indications of oxidative stress could be detected by anti-oxidant vitamin levels. Nevertheless, a decrease in the content of specific membrane fatty acids occurred, supporting the previous suggestions of the presence of a mild chronic inflammatory condition in the chronic renal failure patient on maintenance haemodialysis treatment. These results suggest that factors other than those associated with uraemia, such as rHuEPO administration, might result in an increase in intracellular free Ca2+ in cells of CRF/MHT patients. The magnitude of the rHuEPD-induced increase in intracellular free Ca2+ and the effects of the various calcium channel blockers need urgent further investigation as ineffective counteraction of the rHuEPO effect, as indicated by the relative ineffectivity of Norvasc, may have serious side-effects. / Dissertation (MSc)--University of Pretoria, 2000. / Physiology / unrestricted

Transmission electron microscopy

Fluorescent calcium indicator

Intracellular calcium

Haemodialysis patients

Recombinant human erythropoietin

UCTD