Understanding Molecular Mechanisms of Striated Muscle Laminopathies Using Cellular and Zebrafish Models

Nicolas, Hannah Almira

16 September 2020

No description available.

Lamin A/C

Striated muscle laminopathies

DCM

EDMD

L-CMD

Protein Kinase C alpha

Structure-Activity Studies on the Simplified Analog of Aplysiatoxin and Identification of the PKC Isozymes Involved in Its Anti-Proliferative Activity / アプリシアトキシン単純化アナログの構造活性相関とがん細胞増殖抑制に関わるPKCアイソザイムの同定

Hanaki, Yusuke

26 March 2018

京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第21153号 / 農博第2279号 / 新制||農||1059(附属図書館) / 学位論文||H30||N5127(農学部図書室) / 京都大学大学院農学研究科食品生物科学専攻 / (主査)教授 入江 一浩, 教授 保川 清, 教授 橋本 渉 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM

protein kinase C

aplysiatoxin

anti-cancer

tumor-promoter

structure-activity relationship

610

Alpha-1 adrenergic receptors, protein kinase C, and regulation of intracellular pH in cardiac purkinje fibers

Breen, Timothy Edward

January 1990

This document only includes an excerpt of the corresponding thesis or dissertation. To request a digital scan of the full text, please contact the Ruth Lilly Medical Library's Interlibrary Loan Department (rlmlill@iu.edu).

Adrenaline

Hydrogen-ion concentration

Purkinje cells

Purkinje Fibers

Receptors, Adrenergic

Protein Kinase C

Inhibition of Phorbol Ester-Stimulated Arachidonic Acid Release by Alkylglycerols

Robinson, Mitchell, Burdine, Robin, Warne, Thomas R.

09 February 1995

Although synthetic analogs of alkylglycerol (AG), such as dodecylglycerol, possess potent biological activities, their mechanism of action has not been determined. We recently detected substantial amounts of AG in unstimulated MDCK cells (Warne, T.R. and Robinson, M. (1991) Anal. Biochem. 198, 302-307) raising the possibility mediator. In this study, we examined the effects of synthetic AG on the release of arachidonic acid and arachidonate metabolites (AA) from Madin Darby canine kidney (MDCK) cells in response to 12-O-tetradecanoylphorbol-13-acetate (TPA) in order to characterize its effects on this signalling pathway. Treatment of MDCK with AG potently inhibited the release of AA during subsequent stimulation with TPA. Dodecylglycerol, the most effective of a series of alkylgycerols tested, was active at concentrations as low as 3 μM. The sn-1 and sn-3 forms of AG were found to be equally potent inhibitors. The effects of AG on AA release were not the result of arachidonic acid redistribution among cellular lipids and were independent of the phospholipid source of the released AA. AG did not inhibit the release of AA from MDCK cells when bradykinin was used as a stimulus, indicating selectivity for the effects produced by phorbol esters. These results show that AG can function as a potent and specific inhibitor of TPA-mediated AA release. The ability of AG to regulate this signalling pathway in intact MDCK cells, together with its natural occurrence, suggests a potential bioregulatory role for the endogenous compound as an inhibitor of protein kinase C.

alkylglycerol

arachidonic acid

madin-darby canine kidney

monoglyceride

phorbol myristate acetate

protein kinase C

In Vitro Ischaemic Preconditioning of Isolated Rabbit Cardiomyocytes: Effects of Selective Adenosine Receptor Blockade and Calphostin C

Armstrong, S., Ganote, C. E.

01 January 1995

Objective: The aim was to determine if in vitro ischaemic preincubation can precondition cardiomyocytes and if the responses to adenosine receptor antagonists are similar to those previously determined during 'metabolic' preconditioning with glucose deprivation or adenosine agonists. Methods: Isolated rabbit cardiomyocytes were preconditioned with 10 min of ischaemic preincubation, followed by a 30 min postincubation before the final sustained ischaemic period. The protein kinase C inhibitor calphostin C or the adenosine receptor antagonists 8-sulphophenyltheophylline (SPT), BW 1433U, and 1,3-dipropyl-8-cyclopentylxanthine (DPCPX) were added either during the preincubation or into the final ischaemic pellet. Adenosine deaminase (10 U·ml-1) was added during ischaemic preincubation. Rates of contracture and extent of injury were determined by sequential sampling and assessment of trypan blue permeability following 85 mOsM swelling. Results: Myocytes were preconditioned by a 10 min in vitro ischaemic preincubation. Preincubation with 100 μM SPT or with adenosine deaminase, or addition of 200 nM calphostin C into the final ischaemic pellet did not alter rates of rigor contracture but nearly abolished protection. A significant degree of protection was maintained following ischaemic preincubation with the highly selective adenosine A1 receptor blocker DPCPX (10 μM), while the A1/A3 antagonist BW 1433U (1 μM) severely limited protection. SPT and BW 1433U added only into the final ischaemic pellet of preconditioned cells significantly blocked protection, while protection was maintained in the presence of DPCPX. Conclusions: Ischaemic preconditioning of cardiomyocytes is blocked by adenosine receptor antagonists known to bind to A3 receptors but not by DPCPX which has high affinity for A1 receptors, but little affinity for A3 receptors. Maintenance of protection during the final ischaemic phase has a similar receptor specificity. Blockade of protein kinase C activity abolishes protection. Ischaemic and metabolic preconditioning in vitro appear to occur through similar pathways.

adenosine A receptor 3

adenosine receptors

ischaemic injury

ischaemic preconditioning

isolated myocyte

protein kinase C

In Vitro Ischaemic Preconditioning of Isolated Rabbit Cardiomyocytes: Effects of Selective Adenosine Receptor Blockade and Calphostin C

Armstrong, Stephen, Ganote, Charles E.

01 September 1994

Objective: The aim was to determine if in vitro ischaemic preincubation can precondition cardiomyocytes and if the responses to adenosine receptor antagonists are similar to those previously determined during "metabolic" preconditioning with glucose deprivation or adenosine agonists. Methods: Isolated rabbit cardiomyocytes were preconditioned with 10 min of ischaemic preincubation, followed by a 30 min postincubation before the final sustained ischaemic period. The protein kinase C inhibitor calphostin C or the adenosine receptor antagonists 8-sulphophenyltheophylline (SPT), BW 1433U, and 1,3-dipropyl-8-cyclopentylxanthine (DPCPX) were added either during the preincubation or into the final ischaemic pellet. Adenosine deaminase (10 U · ml-1) was added during ischaemic preincubation. Rates of contracture and extent of injury were determined by sequential sampling and assessment of trypan blue permeability following 85 mOsM swelling. Results: Myocytes were preconditioned by a 10 min in vitro ischaemic preincubation. Preincubation with 100 μM SPT or with adenosine deaminase, or addition of 200 nM calphostin C into the final ischaemic pellet did not alter rates of rigor contracture but nearly abolished protection. A significant degree of protection was maintained following ischaemic preincubation with the highly selective adenosine A1 receptor blocker DPCPX (10 μM), while the antagonist BW 1433U (1 μM) severely limited protection. SPT and BW 1433U added only into the final ischaemic pellet of preconditioned cells significantly blocked protection, while protection was maintained in the presence of DPCPX. Conclusions: Ischaemic preconditioning of cardiomyocytes is blocked by adenosine receptor antagonists known to bind to A3 receptors but not by DPCPX which has high affinity for A1 receptors, but little affinity for A3 receptors. Maintenance of protection during the final ischaemic phase has a similar receptor specificity. Blockade of protein kinase C activity abolishes protection. Ischaemic and metabolic preconditioning in vitro appear to occur through similar pathways.

adenosine A3 receptor

adenosine receptors

ischaemic injury

Ischaemic preconditioning

isolated myocyte

protein kinase C

Preconditioning of Isolated Rabbit Cardiomyocytes: Effects of Glycolytic Blockade, Phorbol Esters, and Ischaemia

Armstrong, Stephen, Ganote, Charles E.

01 January 1994

Objective: The aim was to discriminate among several hypotheses of preconditioning of isolated rabbit cardiomyocytes and to determine if ischaemic preincubation would evoke a protective response. Methods: Isolated myocytes were subjected to 5 min of preincubation, in the presence or absence of glucose, and incubated in the presence of 1 mM iodoacetic acid during the final sustained ischaemic period. In a second series, the protein kinase C (PKC) activators phorbol 12-myristate 13-acetate (PMA), ingenol 3, 20-dibenzoate, and thymeleatoxin were added during preincubation. In a third series, preincubation periods were substituted by brief ischaemic pelleting of cells. Final prolonged ischaemic pelleting was preceded by a 30 min postincubation period. Rate and extent of injury was determined by sequential sampling and assessment of trypan blue permeability following 85 mOsM swelling. Results: Myocytes were preconditioned by a 5 min glucose-free preincubation. Addition of iodoacetic acid into the final ischaemic pellet increased the rates of rigor contracture and injury, but did not abolish the protective response. Direct protein kinase C activation with PMA, a non-selective phorbol ester, and ingenol, an ε, δ-PKC isozyme selective activator, protected cells, but thymeleatoxin, an α,β,γ-PKC isozyme selective activator, did not. A 10 min ischaemic preincubation preconditioned, but the protection was not enhanced when ischaemia was extended to 30 min, or when PMA was included during the initial ischaemic preincubation. Adenosine partially inhibited the response. Conclusions: (1) Preconditioning of isolated myocytes is not dependent on glycolysis or glucose transport. (2) Preconditioning appears dependent on activation of the ε-PKC isoformn. (3) Ischaemia is capable of preconditioning isolated myocytes in vitro, and initiation of this effect is modified by simultaneous additional of adenosine but not by direct protein kinase C activation with PMA. Induction of protection by PMA and ingenol shows that protection requires protein kinase C activation, but direct potassium channel activation by regulatory G proteins is not critical.Cardiovascular Research 1994;28:1700-1706.

adenosine receptors

glycolysis

ischaemic injury

ischaemic preconditioning

isolated myocyte

phorbol esters

protein kinase C

Protein Kinase C-Mediated Contractile Response of the Rat Vas Deferens

Abraham, S. T., Rice, Peter J.

06 August 1992

The role of protein kinase C (PKC) in mediating contractile responses in the rat vas deferens was studied. Phorbol-12,13-di-acetate (PDA) in the presence of 20 mM K+ elicited a concentration-dependent response with an EC50 of 190 nM. The non-PKC activator 4α-phorbol (2 μM) was unable to elicit contraction in 20 mM K+ buffer. Incubation of rat vas deferens with the PKC inhibitor iso-H7 (30 μM) attenuated the response to norepinephrine (NE) ane neurokinin A, with maximal effects depressed to 42 and 39% of control, respectively. Responses to 60 mM K+ and 2 μM PDA (20 mM K+) was also significantly inhibited by iso-H7. In the presence of 2 μM PDA and 20 mM K+, the NE concentration-effect curve was shifted 3,6-fold to the right of the control curve in a parallel manner. 4α-Phorbol (20 mM K+) at the same concentration did not produce this effect. These results suggest a significant role for PKC in the contractile response of the rat vas deferens.

phorbol esters

protein kinase C

vas deferens (rat)

α -Adrenoceptors 1

Preconditioning of Isolated Rabbit Cardiomyocytes: No Evident Separation of Induction, Memory and Protection

Armstrong, Stephen C., Hoover, D. B., Shivell, L. C., Ganote, C. E.

01 January 1997

Cardiomyocytes isolated from rabbit hearts were preconditioned in vitro by 10 min of ischemia or treatment with 100 μM adenosine. Protection was assessed as average integrated mortality following osmotic swelling and determination of viability by trypan blue exclusion over 60-180 min ischemia. Repetitive submaximal stimulations with 1 μM adenosine amplified the protective response. Treatment with adenosine only at the onset of prolonged ischemia afforded a dose-dependent protection. The PKC inhibitor calphostin C (500 nM) blocked preconditioning and, when added during ischemic incubation of non-preconditioned cells, significantly increased injury. The memory of adenosine-induced preconditioning decayed over a 60 min post-incubation period. Light activation of calphostin C initially added to preconditioned ischemic cells in the dark indicated that a 10 min period of PKC activity at the onset of ischemia affords full protection. The reversible PKC inhibitors chelerythrine (5 μM) or staurosporine (100 nM) added only to bracket induction of ischemia, reduced but did not abolish protection. Protection was abolished when either drug was present during induction and a subsequent 30 min post-incubation period. Staurosporine included during initiation and post-incubation but washed out in the final 5 min of post-incubation allowed significant protection to occur. It is concluded that a single adenosine receptor-stimulation induces protection as it preconditions, and PKC activity appears to be required for both induction and protection. Memory may reside in post-receptor amplification of an initial protective response.

adenosine protection

ischemic injury

isolated cardiomyocyte

preconditioning

protein kinase c

Biomedical Sciences

Translocation of PKC, Protein Phosphatase Inhibition and Preconditioning of Rabbit Cardiomyocytes

Armstrong, Stephen C., Hoover, Donald B., Delacey, Martha H., Ganote, Charles E.

01 January 1996

This study was designed to test the hypothesis that induction of the preconditioned state results in a sustained translocation of protein kinase C (PKC) which accounts for the memory associated with preconditioning. Isolated rabbit cardiomyocytes were subjected to established preconditioning protocols using either adenosine or transient ischemia. At timed intervals during induction of preconditioning (PC), post-incubation or final sustained ischemia, cells were harvested, subjected to digitonin lysis and separated into cytosolic and particulate fractions. Samples were evaluated by Western blot analysis with monoclonal antibodies to alpha, epsilon, zeta and gamma PKC isozymes, and bands were quantified by densitometry. Internal controls for each experiment included oxygenated cardiomyocytes and cells with PKC translocation evoked by treatment with phorbol 12-myristate 13-acetate (PMA). For control oxygenated cells, the particulate fraction contained about 30% of PKC epsilon, 5-10% of PKC alpha and 60-70% of PKC zeta. Preconditioning with adenosine (100 μM) or 10 min ischemia had no significant effect on these percentages. Furthermore, the relative amounts of the PKC isozymes associated with the particulate fraction of control and preconditioned cells did not differ after a post-incubation in oxygenated buffer or during a final ischemic incubation. PMA and ingenol completely translocated the epsilon and alpha isoforms, while thymeleatoxin totally translocated PKC alpha but only partially (50%) translocated PKC epsilon. The distribution of PKC zeta between fractions was not affected by any drug, The protein phosphatase inhibitor calyculin A protected cells mimicking preconditioning. This protection was blocked by preincubation with the selective PKC inhibitor calphostin C but was largely retained if calphostin C was added only during the final ischemic period. It is concluded that PKC activity is required for preconditioning, but a sustained translocation of PKC above basal levels is not necessary for protection of rabbit cardiomyocytes in vitro.

ischemic preconditioning

isolated cardiomyocytes

protein kinase C

protein phosphatases

Biomedical Sciences