Approaches to the synthesis of herbimycin]

Hirst, G. C.

January 1987

No description available.

615.1

Herbimycin synthesis

Effect of heat shock factor inhibitor, KNK437, on stress-induced hsp30 gene expression in Xenopus laevis A6 cells

Voyer, Janine

January 2008

Prokaryotic and eukaryotic organisms respond to various stresses with the production of heat shock proteins (HSPs). HSPs are molecular chaperones that bind to unfolded proteins and inhibit their aggregation as well as maintaining their solubility until they can be refolded to their original conformation. Stress-inducible hsp gene transcription is mediated by the heat shock element (HSE), which interacts with heat shock transcription factor (HSF). In this study, we examined the effect of KNK437 (N-formyl-3,4-methylenedioxy-benzylidene-g-butyrolactam), a benzylidene lactam compound, on heat shock, sodium arsenite, cadmium chloride and herbimycin A-induced hsp gene expression in Xenopus laevis A6 kidney epithelial cells. In studies limited to mammalian cultured cells, KNK437 has been shown to inhibit HSE-HSF1 binding activity and stress-induced hsp gene expression. In the present study, western and northern blot analysis revealed that exposure of A6 cells to heat shock, sodium arsenite, cadmium chloride and herbimycin A induced the accumulation of HSP30 protein and hsp30 mRNA, respectively. Western blot analysis also determined that exposure of A6 cells to heat shock, sodium arsenite, cadmium chloride and herbimycin A induced the accumulation of HSP70 protein. Pre-treatment of A6 cells with 100 µM KNK437 inhibited stress-induced hsp30 mRNA as well as HSP30 and HSP70 protein accumulation. Immunocytochemistry and confocal microscopy were used to confirm the results gained from western blot analysis as well as determine the localization of HSP30 accumulation in A6 cells. A 2 h heat shock at 33°C resulted in the accumulation of HSP30 in the mostly in the cytoplasm with a small amount in the nucleus. Heat shock at 35°C resulted in substantial HSP30 accumulation in the nucleus. This is in contrast with A6 cells treated for 14 h with 10 µM sodium arsenite, 100 µM cadmium chloride and 1 µg/mL herbimycin A, where HSP30 accumulation was found only in the cytoplasm and not in the nucleus. A 6 h pre-treatment with 100 µM KNK437 completely inhibited the accumulation of HSP30 in A6 cells heat shocked at 33 or 35°C as well as cells treated with 1 µg/mL herbimycin A. The same pre-treatment with KNK437 resulted in a 97-100% decrease in HSP30 accumulation in A6 cells treated with 10 µM sodium arsenite or 100 µM cadmium chloride. These results show that KNK437 is effective at inhibiting both heat shock and chemical induced hsp gene expression in amphibian cells.

Xenopus laevis

KNK437

hsp30

small heat shock proteins

heat shock factor

heat shock factor inhibition

cadmium chloride

herbimycin A

sodium arsenite

heat shock

HSF1

hsp70

Biology

Effect of heat shock factor inhibitor, KNK437, on stress-induced hsp30 gene expression in Xenopus laevis A6 cells

Voyer, Janine

January 2008

Prokaryotic and eukaryotic organisms respond to various stresses with the production of heat shock proteins (HSPs). HSPs are molecular chaperones that bind to unfolded proteins and inhibit their aggregation as well as maintaining their solubility until they can be refolded to their original conformation. Stress-inducible hsp gene transcription is mediated by the heat shock element (HSE), which interacts with heat shock transcription factor (HSF). In this study, we examined the effect of KNK437 (N-formyl-3,4-methylenedioxy-benzylidene-g-butyrolactam), a benzylidene lactam compound, on heat shock, sodium arsenite, cadmium chloride and herbimycin A-induced hsp gene expression in Xenopus laevis A6 kidney epithelial cells. In studies limited to mammalian cultured cells, KNK437 has been shown to inhibit HSE-HSF1 binding activity and stress-induced hsp gene expression. In the present study, western and northern blot analysis revealed that exposure of A6 cells to heat shock, sodium arsenite, cadmium chloride and herbimycin A induced the accumulation of HSP30 protein and hsp30 mRNA, respectively. Western blot analysis also determined that exposure of A6 cells to heat shock, sodium arsenite, cadmium chloride and herbimycin A induced the accumulation of HSP70 protein. Pre-treatment of A6 cells with 100 µM KNK437 inhibited stress-induced hsp30 mRNA as well as HSP30 and HSP70 protein accumulation. Immunocytochemistry and confocal microscopy were used to confirm the results gained from western blot analysis as well as determine the localization of HSP30 accumulation in A6 cells. A 2 h heat shock at 33°C resulted in the accumulation of HSP30 in the mostly in the cytoplasm with a small amount in the nucleus. Heat shock at 35°C resulted in substantial HSP30 accumulation in the nucleus. This is in contrast with A6 cells treated for 14 h with 10 µM sodium arsenite, 100 µM cadmium chloride and 1 µg/mL herbimycin A, where HSP30 accumulation was found only in the cytoplasm and not in the nucleus. A 6 h pre-treatment with 100 µM KNK437 completely inhibited the accumulation of HSP30 in A6 cells heat shocked at 33 or 35°C as well as cells treated with 1 µg/mL herbimycin A. The same pre-treatment with KNK437 resulted in a 97-100% decrease in HSP30 accumulation in A6 cells treated with 10 µM sodium arsenite or 100 µM cadmium chloride. These results show that KNK437 is effective at inhibiting both heat shock and chemical induced hsp gene expression in amphibian cells.

Xenopus laevis

KNK437

hsp30

small heat shock proteins

heat shock factor

heat shock factor inhibition

cadmium chloride

herbimycin A

sodium arsenite

heat shock

HSF1

hsp70

Biology

Contribui??o das prote?nas tirosina cinases e da c?lciocalmodulina cinase tipo II em modelos animais de epilepsia / Involvement of protein tyrosine kinases and calcium/calmodulin kinase type II in animal models of epilepsy

Queiroz, Claudio Marcos Teixeira de

January 2005

Submitted by Helmut Patrocinio (hell.kenn@gmail.com) on 2017-11-24T03:31:01Z No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Cl?udio_Queiroz_TESE.pdf: 3430647 bytes, checksum: cd4fc13e7f5364c58653d2f2c6808b34 (MD5) / Approved for entry into archive by Ismael Pereira (ismael@neuro.ufrn.br) on 2017-11-27T16:14:10Z (GMT) No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Cl?udio_Queiroz_TESE.pdf: 3430647 bytes, checksum: cd4fc13e7f5364c58653d2f2c6808b34 (MD5) / Made available in DSpace on 2017-11-27T16:15:20Z (GMT). No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Cl?udio_Queiroz_TESE.pdf: 3430647 bytes, checksum: cd4fc13e7f5364c58653d2f2c6808b34 (MD5) Previous issue date: 2005 / As epilepsias do lobo temporal s?o as que apresentam maior refratariedade ao tratamento farmacol?gico e perfazem 2/3 das interven??es cir?rgicas de epilepsia, sendo portanto de grande custo social, econ?mico e psicol?gico. Assim, modelos animais de epilepsia do lobo temporal s?o de grande relev?ncia n?o s? para o entendimento das bases neurais dessa patologia, mas tamb?m para o desenvolvimento de abordagens terap?uticas capazes de evitar a instala??o da doen?a. Esses s?o os objetivos da presente disserta??o de doutorado. Ap?s um evento traum?tico (no caso deste trabalho, um estado de mal epil?ptico), diversas altera??es morfol?gicas e fisiol?gicas acontecem, caracterizando a g?nese da s?ndrome epil?ptico (epileptog?nese). Dentre as altera??es podemos destacar a intensa fosforila??o de prote?nas em res?duos de tirosina e a ativa??o de diferentes segundos mensageiros. Os dois primeiros cap?tulos desta tese descrevem a tentativa de bloquear os processos de epileptog?nese por meio da inibi??o da fosforila??o de res?duos de tirosina atrav?s do tratamento farmacol?gico com inibidores das tirosina cinases, a herbimicina A e o K-252a. O terceiro cap?tulo analisa eletrofisiologicamente o circuito neural do giro denteado em animais que apresentavam uma muta??o em um s?tio inibit?rio da prote?na c?lcio/calmodulina cinase do tipo II (CaMKII). No primeiro cap?tulo, mostramos que o tratamento agudo com herbimicina A (348?M, 5?L, icv), ? capaz de bloquear a potencia??o duradoura (LTP) induzida por um est?mulo tet?nico bem como de atenuar (~40%) a ativa??o neuronal (express?o de c-Fos) decorrente de um estado de mal epil?ptico induzido pela administra??o sist?mica de pilocarpina (SE). Apesar dos significativos efeitos agudos, este tratamento mostrou-se incapaz de atenuar a freq??ncia de crises espont?neas, bem como o padr?o de morte neuronal observado ap?s o estado de mal epil?ptico induzido pela pilocarpina. Entretanto, o tratamento com herbimicina A alterou o padr?o de marca??o de metais pesados (Zn+2) no hilo do giro denteado e na regi?o de CA3 do hipocampo, por?m n?o apresentou efeito sobre o padr?o de brotamento das fibras musgosas observado na camada molecular do giro denteado. No segundo cap?tulo, mostramos que a herbimicina e o K- 252a modificam a atividade epileptiforme induzida pela administra??o intra-hipocampal de ?cido ca?nico, sem alterar o padr?o de morte neuronal. Esses resultados sugerem que o tratamento com inibidores de prote?nas tirosina cinases ? capaz de modificar o padr?o de ativa??o agudo do hipocampo ap?s um est?mulo (i.e., o estado de mal epil?ptico ou a LTP), por?m sem qualquer efeito sobre o processo de epileptog?nese. No terceiro cap?tulo, estudamos a excitabilidade e a plasticidade do giro denteado ? estimula??o da via perfurante (principal afer?ncia da forma??o hipocampal) em animais que apresentam uma CaMKII geneticamente modificada. Essa prote?na uma vez ativada n?o pode ser inibida. A caracteriza??o eletrofisiol?gica demonstrou que esses animais apresentam potenciais de campo evocados no giro denteado aparentemente semelhante aos animais controle (wild-type), por?m sua responsividade a padr?es de estimula??o em salvas e sua plasticidade apresentaram clara altera??o. Essa modifica??o foi caracterizada por uma maior variabilidade nas respostas ? trens de estimula??o (freq??ncias de 1 e 2 Hz) e maior inibi??o do pulso pareado em trens de estimula??o (para pulsos pareados aplicados a freq??ncia de 5 Hz). Al?m disso, conforme j? descrito na literatura, mostramos que a susceptibilidade a atividade epileptiforme depende do padr?o de estimula??o utilizado para os diferentes animais (mutantes vs. wild-type). Assim, utilizando o modelo cl?ssico do abrasamento demonstramos que a muta??o n?o altera a evolu??o da epileptog?nese. Entretanto, ao utilizarmos duas variantes de um padr?o de estimula??o similar ? freq??ncia teta (5Hz, Intermittent vs. Continuous theta-burst stimulations), demonstramos a import?ncia da muta??o na manuten??o da excitabilidade do giro denteado. Esses resultados destacam a import?ncia da CaMKII na atividade epileptiforme al?m de sugerir novas abordagens experimentais (i.e., sensibilidade ? padr?es de estimula??o eletrofisiol?gica) no estudo da epileptog?nese. Em resumo, os resultados apresentados nessa tese contribuem para um melhor entendimento dos fen?menos subjacentes aos processos de plasticidade neuronal e da contribui??o destes para o fen?meno de epileptog?nese, al?m de sugerir / Temporal lobe epilepsies are highly refractory to pharmacological treatment. Up to 70% of these patients undergo chirurgical resection of temporal region, procedure with important consequences for the social, economic and psychological spheres. Experimental animal models that mimic temporal lobe epilepsy provide an insightful approach to study the neural basis of epilepsy as well as create opportunities to test promising therapeutic drugs. The present thesis tests the antiepileptogenic activity of two protein tyrosine kinase inhibitors and the relevance of Ca+2/calmodulin kinase type II (CaMKII) mutants. Multiples morphological and physiological alterations take place after a traumatic brain injury (in this thesis, the status epilepticus) leading the animal to an epileptic conditions. During this period, the epileptogenesis process, there is strong tyrsine phosphorylation with the activation of many second messengers. The first two chapters of the thesis describe experiments in which herbimycin A and K-252a, two protein tyrosine kinase inhibitors, were used to attenuate synaptic plasticity and epileptogenesis. The third chapter, the dentate gyrus network was studied after angular bundle stimulation in animals presenting one punctual mutation at the autoinhibitory phosphorylation site of the CaMKII. In the first chapter, we showed that one single herbimycin A injection (348?M, 5?L, icv) was able to attenuate long-term potentiation (LTP) in the commissural CA3 neurons and also, to decrease status epilepticus- (SE-) induced neuronal activation (c-Fos expression) in almost 40%. Although markedly acute effects, the present herbimycin A treatment was not able to diminish spontaneous seizure frequency, cell death or aberrant mossy fiber sprouting observed after the pilocarpine-induced SE. Curiously, herbimycin-treated animals presented decreased neo-Timm staining in the hilus and CA3 region despite the epileptic condition. In the second chapter, we confirmed the ability of protein tyrosine kinase inhibitors to decrease SE-induced neuronal activation. Herbimycin A icv treatment altered the kainic acid-induced epileptiform profile in EEG recordings. Cell death pattern was not altered by any pharmacological treatment. These results suggest that protein tyrosine kinase inhibitiors are able to modify the acute neuronal activation and plasticity (ictogenesis or LTP) but is ineffective in attenuating the epileptogenesis process. In the third chapter, we studied the dentate gyrus excitability and plasticity after angular bundle stimulation in CaMKII mutant animals. Once in its self-sustained mode, this mutation does not allow the reduction of the catalytic activity of the kinase. These animals present normal electrophysiological profiles (similar to wild-type animals) but with reduced amplitude. Shortterm plasticity was clearly altered. Mutant animals presented increased variability in the responses to trains of stimulation at 1 and 2 Hz, and at at 5Hz stronger paired-pulse inhibition. Accordingly to the literature, we also showed that the epileptiform susceptibility depends on the stimulation pattern used in both animals (mutants vs. wild-type). Thus, although the mutation did not altered the behavior and the electrographic kindling evolution, we showed that mutant animals were prone to afterdischarges when stimulate by an intermittent theta-burst stimulation. On the other hand, the same animals needed more bursts to induce afterdischarges when the stimulation was set in the continuos mode. Taken together, the present results contribute to a better understanding of the protein tyrosine kinase and CaMKII function in neuronal plasticity underlying the epileptogenesis process and sum efforts in searching for a clinic antiepileptogenic drug.

Epileptog?nese

Herbimicina A

Morte celular

Brotamento das fibras musgosas

Eletrofisiologia

Animais transg?nicos

Epileptogenesis

Herbimycin A

Cell death

Budding of mossy fibers

Electrophysiology

Transgenic animals