The eIF2 phosphatase : characterization and modulation

Crespillo Casado, Ana

January 2018

Cellular needs are fulfilled by the combined activity of functional proteins. Consequently, cells are equipped with a complex proteostatic network that controls protein production in response to cellular requisites. Thereby, protein synthesis is induced or attenuated depending on the particular cellular conditions. One of the mechanisms to control protein synthesis is the phosphorylation of eIF2, which triggers the so-called Integrated Stress Response (ISR). Kinases that sense stresses induce the phosphorylation of eIF2, which, on the one hand, attenuates global rates of protein synthesis and, on the other hand, activates the expression of specific proteins that help to alleviate the stress. One of the proteins preferentially expressed during the ISR is PPP1R15A, a regulatory subunit of Protein Phosphatase 1 (PP1). The PP1/PPP1R15A holophosphatase dephosphorylates eIF2 and terminates the ISR once the stresses are resolved. Hence, eIF2 kinases and phosphatases work together to control levels of phosphorylated eIF2. Maintaining the right balance between the activity of these kinases and phosphatases is important, as is seen by the correlation between their perturbance and the appearance of certain cellular malfunctions or diseases. However, affecting this balance has been also suggested to have beneficial effects. For example, genetic interference with the PPP1R15A regulatory subunit is proposed to confer protection to mice and cells under ER-stress conditions. This observation led to the search for compounds with the ability to modulate the ISR, in particular, by acting on the eIF2 phosphatases. Three compounds (Salubrinal, Guanabenz and Sephin1) have been proposed as eIF2 phosphatase inhibitors with potential use as therapeutic tools in protein misfolding diseases. However, their precise mechanism of action and their direct effect on the enzyme remains an open question. This thesis focuses on the in vitro reconstitution of the eIF2 phosphatase, which served as a platform for characterizing the enzyme (in terms of its structure, activity and assembly) and for studying the proposed inhibitors. This report details key structural features of the PPP1R15/PP1 holophosphatase, the discovery of a cellular cofactor of the enzyme and the conclusions obtained after analysing the effect of its proposed inhibitors. It also includes the development of several in vitro assays, which could potentially be used to screen libraries of compounds in search for modulators of the enzyme.

eIF2 ; phosphatase ; inhibitor

Stability Study of Phoslactomycin B and Analysis of Degradation Products

Das, Choudhuri Suparna

01 January 2005

Phoslactomycin B (PLM-B), a potent and selective inhibitor of serine threonine phosphatase is of interest for its antitumor, antifungal and antiviral activity. The objective of this study was to evaluate the stability of phoslactomycin B at various pH and temperature conditions. Phoslactomycin B was produced from the mutant strain NP1 of Streptomyces sp.HK-803 and was purified by semi-preparative HPLC . A study of PLM-B degradation was carried out in the pH range of 2-10 at 30ºC and 50°C using HPLC. The PLM-B decomposition was observed to exhibit a U-shaped pH profile and demonstrated both acid and base-catalyzed decomposition. The decomposition could be described by the equation kOBS = kH x 10-pH + kOH x 10 pH- 14 (kH = 45±7 M-1 h-1; kOH = 448± 73 M-1 h-1). PLM-B was found to be most stable at pH 6.63. The degradation products in both acidic and basic pH have been collected and analyzed. Under basic condition, mass spectroscopic analysis revealed addition of water and NMR was consistent with the major products being formed due to lactone ring opening and/or a Micheal type addition reaction. Under acidic condition MS revealed loss of water for all three compounds. NMR analysis of one product (product 8) was consistant with C9- C11 phosphorinane derivative of PLM-B. The remaining compounds were shown to be mixture of various dehydration products. The degradation products despite containing small structural changes to PLM-B lost all detectable levels of antifungal activity.

Phoslactomycin

PLMB

Stability Study

Phoslactomycin degradation products

Phosphatase inhibitor

Chemicals and Drugs

Medicine and Health Sciences

Die Rolle des Protein-Phosphatase-1-Inhibitor-1 in der β-adrenergen Signalkaskade kardialer Fibroblasten / The role of protein phosphatase inhibitor-1 in β-adrenergic signaling in cardiac fibroblasts

Ewens, Sebastian

04 April 2019

No description available.

610

protein phosphatase inhibitor-1

fibroblasts

Kardiale Phänotypisierung einer transgenen Mauslinie mit herzspezifischer Calcium-Calmodulin-Kinase IIδc- Überexpression auf einem Phosphatase-Inhibitor-1- Knockout-Hintergrund / Cardiac phenotyping of a transgenic mouse model with cardiac specific Ca2+/calmodulin-dependent protein kinase IIδc overexpression on a phosphatase inhibitor -1 knockout background

Brammen, Christina Andrea Anna

29 September 2015

No description available.

610

Phosphatase-Inhibitor-1- Knockout

Calcium-Calmodulin-Kinase IIδc

β - adrenerge Desensitivierung

SR-Ca2+-Leck

phosphatase inhibitor -1 knockout

β - adrenergic desensitization

SR Ca2+ leak

GOK-MEDIZIN

Auswirkung eines Knockouts des Protein-Phosphatase-Inhibitor-1 auf den Verlauf der druckinduzierten Herzinsuffizienz in Mäusen

Hartmann, Knut

31 May 2017

Aims Protein Phosphatase Inhibitor 1 (I-1) functions as an amplifier of the β-adrenergic cascade in cardiomyocytes. Once activated via PKA, I-1 specifically blocks PP-1-mediated dephosphorylation of phospholamban and the ryanodine receptor-1. In heart failure I-1 activity as well as its expression is significantly reduced. It is still unclear whether this adaptation is protective or detrimental. This work aims at examining the impact of I-1 depletion on the course of pressure-induced heart failure, more precisely on acute and long-term mortality, on cardiac morphology and function and on expression levels of hypertrophy markers. Results may help evaluating the benefit of putative I-1 inhibiting substances in the therapy of heart failure. Methods and Results 25 I-1KO and 28 WT mice (C57Bl/6J, age- and sex-matched) underwent transverse aortic constriction (TAC). Cardiac function was assessed via transthoracic echocardiography prior to the intervention and weekly afterwards. Additionally, mice were exposed to β-adrenergic stimulation by injection of dobutamine once prior to TAC and two times afterwards, each controlled by echocardiography. For male mice acute survival was significantly increased in WT compared to I-1KO, whereas the mortality of surviving animals did not differ during the investigation period. For female mice no difference was seen in acute mortality after TAC, but during heart failure progression I-1KO revealed a significantly better survival. Prior to TAC contractility in I-1KO after application of dobutamine was significantly lower than in WT. This effect was mainly induced by female mice. Overall female mice of both WT and I-1KO showed smaller increases in heart rate (HR) and stroke volume (SV) when stimulated. In contrast, following TAC neither line- nor sex-dependent differences were found according to β-adrenergic stimulation. The comparison of hypertrophy markers in control groups revealed clearly decreased levels for I-1KO compared to WT. Conclusion In pressure-induced heart failure, I-1 knockout alters cardiac contractility and modulates mortality in a phase- and sex-dependent way. The depletion is detrimental for male mice in the acute phase of cardiac stress, whereas it is protective for female mice during heart failure progression. The increased mortality in the acute phase might result from the loss of I-1 as an amplifier of β-adrenergic signaling as this leads to a restriction of contractile adaptation. The increased survival in heart failure progression might be caused by a reduced transmission of pathologically increased sympathetic activity on the SR due to the depletion of I-1. Additionally, hypertrophy marker analyses point to differences in expression levels even under non-pathological conditions. / Ziel Der Proteinphosphatase-Inhibitor I-1 wirkt als ein Verstärker der β-adrenergen Kaskade in Kardiomyozyten. Nach PKA-abhängiger Phosphorylierung hemmt er spezifisch die Dephosphorylierung von PLB und RYR-2 durch die Proteinphosphatase-1. Im Rahmen einer Herzinsuffizienz sind sowohl Aktivität als auch Expression von I-1 deutlich reduziert. Hierbei ist unklar, ob dies eine protektive oder eine schädliche Adaption der β-adrenergen Kaskade darstellt. Diese Arbeit untersucht den Einfluss einer Depletion des I-1 (I-1KO) im Rahmen der druckinduzierten Herzinsuffizienz auf die akute bzw. auf die langfristige Mortalität, auf die kardiale Morphologie und Funktion sowie auf die Expression typischer Hypertrophiemarker. Hieraus sollen Erkenntnisse über den Nutzen der Verwendung putativ I-1 inhibierender Substanzen in der Behandlung der Herzinsuffizienz gewonnen werden. Methoden und Resultate 25 I-1KO- sowie 28 WT-Mäuse (C57Bl/6J, age and sex matched) erhielten eine Transverse Aortic Constriction (TAC). Die kardiale Funktion wurde einmalig vor der Intervention sowie danach wöchentlich mittels TTE untersucht. Zusätzlich wurden die Tiere einmalig vor TAC und zweimalig danach unter echokardiographischer Kontrolle mittels Dobutamin β-adrenerg stimuliert. Für die männlichen Tiere zeigte sich in den ersten Tagen nach TAC eine signifikant erhöhte Überlebensrate des WT gegenüber I-1KO. Die Mortalität der überlebenden männlichen Tiere unterschied sich hingegen nicht über den Versuchszeitraum. Für die weiblichen Tiere bestand kein Unterschied in der akuten Sterblichkeit nach TAC, während sich im Verlauf eine signifikant bessere Überlebensrate der weiblichen I-1KO gegenüber WT zeigte. Vor TAC wurde eine signifikant herabgesetzte Kontraktilität (FAS) des I-1KO unter Dobutamin festgestellt, der im Wesentlichen durch die weiblichen Tiere bewirkt wird. Insgesamt zeigten die weiblichen Tiere beider Linien unter β-adrenerger Stimulation eine geringere Zunahme von Herzfrequenz (HR) und Schlagvolumen (SV). Hingegen waren nach TAC keine linien- oder geschlechtsabhängigen Unterschiede unter Dobutamingabe feststellbar. Ein Vergleich der Hypertrophiemarker in der Kontrollgruppe zeigte für I-1KO ein deutlich vermindertes Niveau der Marker gegenüber WT. Ergebnis Der I-1-Knockout verändert die kardiale Kontraktilität und wirkt sowohl in phasen- als auch in geschlechtsabhängiger Weise auf die Mortalität infolge druckinduzierter Herzinsuffizienz. Er ist nachteilig für männliche Tiere in der akuten Phase kardialer Belastung, während er für weibliche Tiere im weiteren Verlauf protektive Wirkung entfaltet. Eine erhöhte Mortalität in der akuten Phase kann durch den Ausfall der Verstärkerfunktion des I-1 erklärt werden, da hiermit eine Einschränkung der akut notwendigen kontraktilen Adaptionsfähigkeit einhergeht. Ein Überlebensvorteil bei chronischer kardialer Belastung könnte darauf zurückzuführen sein, dass die pathologisch erhöhte sympathische Aktivierung der β-adrenergen Kaskade infolge der I-1-Depletion eine geringere Auswirkung auf die Zielstrukturen des aktivierten I-1 am Sarkoplasmatischen Retikulum hat. Darüber hinaus lassen die Analysen der Hypertrophiemarker eine veränderte Genexpression zwischen I-1KO und WT auch unter nicht-pathologischen Bedingungen vermuten.

Inhibitor-1

Protein-Phosphatase-Inhibitor-1

TAC

transverse aortic constriction

PP-1

Protein-Phosphatase-1

I-1

PPI-1

Transverse Aortic Constriction

TAC

Protein Phosphatase Inhibitor-1

Inhibitor-1

I-1

PPI-1

ddc:610

rvk:YB 9304

Auswirkung eines Knockouts des Protein-Phosphatase-Inhibitor-1 auf den Verlauf der druckinduzierten Herzinsuffizienz in Mäusen

Hartmann, Knut

18 April 2017

Aims Protein Phosphatase Inhibitor 1 (I-1) functions as an amplifier of the β-adrenergic cascade in cardiomyocytes. Once activated via PKA, I-1 specifically blocks PP-1-mediated dephosphorylation of phospholamban and the ryanodine receptor-1. In heart failure I-1 activity as well as its expression is significantly reduced. It is still unclear whether this adaptation is protective or detrimental. This work aims at examining the impact of I-1 depletion on the course of pressure-induced heart failure, more precisely on acute and long-term mortality, on cardiac morphology and function and on expression levels of hypertrophy markers. Results may help evaluating the benefit of putative I-1 inhibiting substances in the therapy of heart failure. Methods and Results 25 I-1KO and 28 WT mice (C57Bl/6J, age- and sex-matched) underwent transverse aortic constriction (TAC). Cardiac function was assessed via transthoracic echocardiography prior to the intervention and weekly afterwards. Additionally, mice were exposed to β-adrenergic stimulation by injection of dobutamine once prior to TAC and two times afterwards, each controlled by echocardiography. For male mice acute survival was significantly increased in WT compared to I-1KO, whereas the mortality of surviving animals did not differ during the investigation period. For female mice no difference was seen in acute mortality after TAC, but during heart failure progression I-1KO revealed a significantly better survival. Prior to TAC contractility in I-1KO after application of dobutamine was significantly lower than in WT. This effect was mainly induced by female mice. Overall female mice of both WT and I-1KO showed smaller increases in heart rate (HR) and stroke volume (SV) when stimulated. In contrast, following TAC neither line- nor sex-dependent differences were found according to β-adrenergic stimulation. The comparison of hypertrophy markers in control groups revealed clearly decreased levels for I-1KO compared to WT. Conclusion In pressure-induced heart failure, I-1 knockout alters cardiac contractility and modulates mortality in a phase- and sex-dependent way. The depletion is detrimental for male mice in the acute phase of cardiac stress, whereas it is protective for female mice during heart failure progression. The increased mortality in the acute phase might result from the loss of I-1 as an amplifier of β-adrenergic signaling as this leads to a restriction of contractile adaptation. The increased survival in heart failure progression might be caused by a reduced transmission of pathologically increased sympathetic activity on the SR due to the depletion of I-1. Additionally, hypertrophy marker analyses point to differences in expression levels even under non-pathological conditions. / Ziel Der Proteinphosphatase-Inhibitor I-1 wirkt als ein Verstärker der β-adrenergen Kaskade in Kardiomyozyten. Nach PKA-abhängiger Phosphorylierung hemmt er spezifisch die Dephosphorylierung von PLB und RYR-2 durch die Proteinphosphatase-1. Im Rahmen einer Herzinsuffizienz sind sowohl Aktivität als auch Expression von I-1 deutlich reduziert. Hierbei ist unklar, ob dies eine protektive oder eine schädliche Adaption der β-adrenergen Kaskade darstellt. Diese Arbeit untersucht den Einfluss einer Depletion des I-1 (I-1KO) im Rahmen der druckinduzierten Herzinsuffizienz auf die akute bzw. auf die langfristige Mortalität, auf die kardiale Morphologie und Funktion sowie auf die Expression typischer Hypertrophiemarker. Hieraus sollen Erkenntnisse über den Nutzen der Verwendung putativ I-1 inhibierender Substanzen in der Behandlung der Herzinsuffizienz gewonnen werden. Methoden und Resultate 25 I-1KO- sowie 28 WT-Mäuse (C57Bl/6J, age and sex matched) erhielten eine Transverse Aortic Constriction (TAC). Die kardiale Funktion wurde einmalig vor der Intervention sowie danach wöchentlich mittels TTE untersucht. Zusätzlich wurden die Tiere einmalig vor TAC und zweimalig danach unter echokardiographischer Kontrolle mittels Dobutamin β-adrenerg stimuliert. Für die männlichen Tiere zeigte sich in den ersten Tagen nach TAC eine signifikant erhöhte Überlebensrate des WT gegenüber I-1KO. Die Mortalität der überlebenden männlichen Tiere unterschied sich hingegen nicht über den Versuchszeitraum. Für die weiblichen Tiere bestand kein Unterschied in der akuten Sterblichkeit nach TAC, während sich im Verlauf eine signifikant bessere Überlebensrate der weiblichen I-1KO gegenüber WT zeigte. Vor TAC wurde eine signifikant herabgesetzte Kontraktilität (FAS) des I-1KO unter Dobutamin festgestellt, der im Wesentlichen durch die weiblichen Tiere bewirkt wird. Insgesamt zeigten die weiblichen Tiere beider Linien unter β-adrenerger Stimulation eine geringere Zunahme von Herzfrequenz (HR) und Schlagvolumen (SV). Hingegen waren nach TAC keine linien- oder geschlechtsabhängigen Unterschiede unter Dobutamingabe feststellbar. Ein Vergleich der Hypertrophiemarker in der Kontrollgruppe zeigte für I-1KO ein deutlich vermindertes Niveau der Marker gegenüber WT. Ergebnis Der I-1-Knockout verändert die kardiale Kontraktilität und wirkt sowohl in phasen- als auch in geschlechtsabhängiger Weise auf die Mortalität infolge druckinduzierter Herzinsuffizienz. Er ist nachteilig für männliche Tiere in der akuten Phase kardialer Belastung, während er für weibliche Tiere im weiteren Verlauf protektive Wirkung entfaltet. Eine erhöhte Mortalität in der akuten Phase kann durch den Ausfall der Verstärkerfunktion des I-1 erklärt werden, da hiermit eine Einschränkung der akut notwendigen kontraktilen Adaptionsfähigkeit einhergeht. Ein Überlebensvorteil bei chronischer kardialer Belastung könnte darauf zurückzuführen sein, dass die pathologisch erhöhte sympathische Aktivierung der β-adrenergen Kaskade infolge der I-1-Depletion eine geringere Auswirkung auf die Zielstrukturen des aktivierten I-1 am Sarkoplasmatischen Retikulum hat. Darüber hinaus lassen die Analysen der Hypertrophiemarker eine veränderte Genexpression zwischen I-1KO und WT auch unter nicht-pathologischen Bedingungen vermuten.

info:eu-repo/classification/ddc/610

ddc:610

Caracterização molecular de INc-1, um inibidor da proteína fosfatase do tipo 1 de neurospora crassa / Molecular characterization of INC-1, an inhibitor of protein phosphatase type 1 Neurospora crassa

Beton, Daniela

01 October 2004

A proteína serina/treonina fosfatase do tipo 1 (PP1) é a principal serina/treonina fosfatase envolvida na regulação de diversos processos tais como metabolismo, crescimento e divisão celular, síntese protéica e processamento de RNA. A holoenzima PP1 é constituída de uma subunidade catalítica conservada (PP1c) e subunidades reguladoras variáveis. Em mamíferos já foram identificados dezenas de polipeptídeos que associam-se direta ou indiretamente a PP1c, gerando holoenzimas com localizações celulares e especificidades distintas. Entre as proteínas que se associam a PP1c, muitas têm função inibitória como o inibidor-1 (I-1) e o inibidor-2 (I-2). A partir de extratos de micélios de Neurospora crassa foi purificada uma proteína, denominada INc-1, que atua in vitro como inibidor da atividade de fosforilase fosfatase de PP1c e constitui-se no primeiro exemplo de subunidade reguladora da PP1 descrito em fungos filamentosos. INc-1 apresenta diversas características bioquímicas comuns ao I-2 de mamíferos. Seqüências parciais de aminoácidos de três fragmentos proteolíticos obtidos de INc-1 permitiram a identificação de uma ORF (fase aberta de leitura) no genoma de N. crassa que provavelmente codifica INc-1. A análise dessa ORF mostrou que a sequência de aminoácidos do INc-1 é similar a do I-2, especialmente em regiões supostamente envolvidas em sua interação com a PP1c. Neste trabalho descrevemos a clonagem e a expressão em bactérias da sequência codificadora de INc-1. A atividade inibidora de PP1c de duas isoformas recombinantes purificadas, INc-1L e INc-1, foram avaliadas e comparadas. A forma denominada INc-1L apresenta em sua região aminoterminal um segmento de 38 aminoácidos derivado da retenção de um íntron, sem alterar a fase de leitura. Ambas proteínas recombinantes exibiram efeito inibidor sobre a atividade de fosforilase fosfatase de PP1c recombinante, sendo que a IC50 determinada para INc-1L foi de ~50nM e para INc-1 foi de ~11nM, sugerindo que a retenção do segmento de aminoácidos codificado pelo íntron na isoforma INc-1L diminui seu potencial inibitório. Verificamos também que o mRNA de INc-1 é expresso durante o crescimento vegetativo de N.crassa, apresentando níveis máximos na fase exponencial. / Type 1 protein serine/threonine phosphatases (PP1) play important roles in the regulation of many cellular functions including metabolism, cell growth and division, protein synthesis and pre-mRNA splicing. PP1 holoenzyme consists of one highly conserved catalytic subunit (PP1c) and variable regulatory subunits. A number of proteins that interact with PP1c have been described in mammals and the respective holoenzymes present distinct substrate specificity and/or different subcelular localization. Among the proteins that interact with PP1c, there are many with inhibitory effect such as inhibitor-1 (I-1) and inhibitor-2 (1-2). It has been demonstrated that a protein denominated INc-1, purified from Neurospora crassa extracts, specifically inhibits PP1c and has biochemical properties that resemble those of mammalian I-2. INc-1 is the first example of a PP1c regulatory subunit in filamentous fungi. Partial amino acid sequences of INc-1 led to the identification of an ORF (open reading frame) in Neurospora crassa genome which appears to encode INc-1. This ORF shows similarity with mammalian I-2 mainly in regions mapped as sites for interaction with PP1c. In this work we report the cloning and bacterial expression of the coding sequence for INc-1. The PP1c inhibitory activities of two recombinant isoforms, named INc-1L and INc-1, were compared. INc-1L aminoacid sequence presents an in frame segment of 38 residues encoded by an non-processed intron. 80th recombinant proteins showed inhibitory effect against phosphorylase phosphatase activity of recombinant PP1c, with IC50 of ~50nM for INc-1L and ~11nM for INc-1, suggesting that retention of the 38 residue segment decrease the inhibitory potential of INc-1L. We have also verified that INc-1 mRNA is expressed during N.crassa vegetative growth with maximum level at the exponential phase.

Biologia molecular

Inibidor-2

Molecular biology

Neurospora crassa

Neurospora crassa

Proteína serina/treonina fosfatase

Proteínas

Proteins

Caracterização molecular de INc-1, um inibidor da proteína fosfatase do tipo 1 de neurospora crassa / Molecular characterization of INC-1, an inhibitor of protein phosphatase type 1 Neurospora crassa

Daniela Beton

01 October 2004

A proteína serina/treonina fosfatase do tipo 1 (PP1) é a principal serina/treonina fosfatase envolvida na regulação de diversos processos tais como metabolismo, crescimento e divisão celular, síntese protéica e processamento de RNA. A holoenzima PP1 é constituída de uma subunidade catalítica conservada (PP1c) e subunidades reguladoras variáveis. Em mamíferos já foram identificados dezenas de polipeptídeos que associam-se direta ou indiretamente a PP1c, gerando holoenzimas com localizações celulares e especificidades distintas. Entre as proteínas que se associam a PP1c, muitas têm função inibitória como o inibidor-1 (I-1) e o inibidor-2 (I-2). A partir de extratos de micélios de Neurospora crassa foi purificada uma proteína, denominada INc-1, que atua in vitro como inibidor da atividade de fosforilase fosfatase de PP1c e constitui-se no primeiro exemplo de subunidade reguladora da PP1 descrito em fungos filamentosos. INc-1 apresenta diversas características bioquímicas comuns ao I-2 de mamíferos. Seqüências parciais de aminoácidos de três fragmentos proteolíticos obtidos de INc-1 permitiram a identificação de uma ORF (fase aberta de leitura) no genoma de N. crassa que provavelmente codifica INc-1. A análise dessa ORF mostrou que a sequência de aminoácidos do INc-1 é similar a do I-2, especialmente em regiões supostamente envolvidas em sua interação com a PP1c. Neste trabalho descrevemos a clonagem e a expressão em bactérias da sequência codificadora de INc-1. A atividade inibidora de PP1c de duas isoformas recombinantes purificadas, INc-1L e INc-1, foram avaliadas e comparadas. A forma denominada INc-1L apresenta em sua região aminoterminal um segmento de 38 aminoácidos derivado da retenção de um íntron, sem alterar a fase de leitura. Ambas proteínas recombinantes exibiram efeito inibidor sobre a atividade de fosforilase fosfatase de PP1c recombinante, sendo que a IC50 determinada para INc-1L foi de ~50nM e para INc-1 foi de ~11nM, sugerindo que a retenção do segmento de aminoácidos codificado pelo íntron na isoforma INc-1L diminui seu potencial inibitório. Verificamos também que o mRNA de INc-1 é expresso durante o crescimento vegetativo de N.crassa, apresentando níveis máximos na fase exponencial. / Type 1 protein serine/threonine phosphatases (PP1) play important roles in the regulation of many cellular functions including metabolism, cell growth and division, protein synthesis and pre-mRNA splicing. PP1 holoenzyme consists of one highly conserved catalytic subunit (PP1c) and variable regulatory subunits. A number of proteins that interact with PP1c have been described in mammals and the respective holoenzymes present distinct substrate specificity and/or different subcelular localization. Among the proteins that interact with PP1c, there are many with inhibitory effect such as inhibitor-1 (I-1) and inhibitor-2 (1-2). It has been demonstrated that a protein denominated INc-1, purified from Neurospora crassa extracts, specifically inhibits PP1c and has biochemical properties that resemble those of mammalian I-2. INc-1 is the first example of a PP1c regulatory subunit in filamentous fungi. Partial amino acid sequences of INc-1 led to the identification of an ORF (open reading frame) in Neurospora crassa genome which appears to encode INc-1. This ORF shows similarity with mammalian I-2 mainly in regions mapped as sites for interaction with PP1c. In this work we report the cloning and bacterial expression of the coding sequence for INc-1. The PP1c inhibitory activities of two recombinant isoforms, named INc-1L and INc-1, were compared. INc-1L aminoacid sequence presents an in frame segment of 38 residues encoded by an non-processed intron. 80th recombinant proteins showed inhibitory effect against phosphorylase phosphatase activity of recombinant PP1c, with IC50 of ~50nM for INc-1L and ~11nM for INc-1, suggesting that retention of the 38 residue segment decrease the inhibitory potential of INc-1L. We have also verified that INc-1 mRNA is expressed during N.crassa vegetative growth with maximum level at the exponential phase.

Biologia molecular

Inibidor-2

Neurospora crassa

Proteína serina/treonina fosfatase

Proteínas

Molecular biology

Neurospora crassa

Proteins