Islets from RIP-PDE3B mice, exhibiting β-cell specific overexpression of the cAMP/cGMP-degrading enzyme phosphodiesterase 3B (PDE3B) and dysregulated insulin secretion, were subjected to microarray analysis. We show ...Islets from RIP-PDE3B mice, exhibiting β-cell specific overexpression of the cAMP/cGMP-degrading enzyme phosphodiesterase 3B (PDE3B) and dysregulated insulin secretion, were subjected to microarray analysis. We show that osteopontin (OPN) mRNA is increased in a dose-dependent manner in islets from RIP-PDE3B mice, as compared to wild-type islets. In addition, in silico analysis shows that PDE3B and OPN are interacting. Furthermore, OPN interacts with protein kinase CK2 ina distinct submodule of the protein-protein interaction network. We studied PDE3B and OPN proteins and, in some cases, also PDE1B and PDE4C, under conditions of relevance for insulin secretion. In the presence of forskolin, PDE inhibitors, insulin, or a protein kinase CK2 inhibitor, similar alterations in protein levels of PDE3B and OPN are shown. In summary, results from using a number of strategies demonstrate a connection between PDE3B and OPNas well as a role for protein kinase CK2 inpancreatic β-cells.展开更多
Cyclic-nucleotide phosphodiesterase 1(PDE1) is a unique enzyme family hydrolyzing both cyclic guanosine monophosphate(cGMP) and cyclic adenosine monophosphate(cAMP) intra-cellular signaling molecules. A unique aspect ...Cyclic-nucleotide phosphodiesterase 1(PDE1) is a unique enzyme family hydrolyzing both cyclic guanosine monophosphate(cGMP) and cyclic adenosine monophosphate(cAMP) intra-cellular signaling molecules. A unique aspect of this enzyme family is its activation by calcium-calmodulin upon excitation of excitatory cells such as neurons and cardiomyocytes. In chronic degenerative diseases such as Parkinson disease,Alzheimer disease and heart failure,over-stimulation and chronic excessive levels of intra-cellular calcium leads to cell death. Targeting the PDE1 enzyme family with enzyme inhibitors is a novel approach to develop therapeutic agents for degenerative disorders. ITI-214 is a potent,and selective PDE1 inhibitor that has been tested in four human clinical trials. It is safe and well tolerated even at high dose levels that lead to high plasma and cerebral spinal fluid levels. In animal models,ITI-214 has cognitive enhancing properties as demonstrated in the rat novel object recognition model. Using a unilateral 6-hydroxy-dopamine lesion mouse model,the cylinder test readout of front paw use indicated that ITI-214 displays L-DOPA sparing effects ITI-214 reverses catalepsy induced by the potent dopamine D2 receptor antagonist haloperidol,indicating potential applications in Parkinson disease and as an adjunctive treatment in schizophrenia. Aspects of the Intra-Cellular Therapies PDE1 inhibitor program wil be outlined and the potential application to multiple therapeutic areas wil be discussed.展开更多
Objective Cyclic nucleotide phosphodiesterase(PDE)is a critical component of the nitric oxide(NO)signaling pathway and plays critical roles in cognition and learning,Parkinson’s disease,attention deficit hyperact...Objective Cyclic nucleotide phosphodiesterase(PDE)is a critical component of the nitric oxide(NO)signaling pathway and plays critical roles in cognition and learning,Parkinson’s disease,attention deficit hyperactivity disorder, psychosis and depression.The PDEs in the brain of guinea pig have not yet been reported.The present study aimed to detect the unknown Pde cDNAs in the brain of guinea pig.Methods Reverse transcription polymerase chain reaction(RT-PCR)and sequence comparison analysis were performed to detect the expression of Pde cDNAs and to assess the identity rates of cDNA and amino acid sequences between guinea pig and human or mouse,respectvely.The RT-PCR primers were located on the conserved region of human PDE and mouse Pde cDNAs.Results Eleven novel Pde cDNAs were detected in the brain of guinea pig(Cavia porcellus),including CpPde1a,CpPde1b,CpPde2a,CpPde4a,CpPde4d,CpPde5a,CpPde6c,CpPde7b, CpPde8a,CpPde9a,and CpPde10a.The identity rates of the Pde cDNA sequences between guinea pig and human ranged from 83.8%to 94.3%,and those of the amino acid sequences ranged from 91.9%to 100%.The identity rates of Pde cDNA sequences between guinea pig and mouse ranged from 84.6%to 92.1%,and those of amino acid sequences ranged from 91.2% to 99.2%.The average identity rate of the 11 Pde cDNA sequences between guinea pig and human was significantly higher(P 0.01)than that between guinea pig and mouse.The putative partial amino acid sequences of guinea pig contained at least one of the conserved domains of human and mouse PDE proteins.Conclusion These results indicate that the brainexpressed Pde genes are identified in guinea pig,which lays the foundation for further investigating the physiological roles of PDE proteins in the brain.展开更多
The membrane-anchored myelin enzyme 2′,3′-cyclic nucleotide 3′-phosphodiesterase(CNPase) was discovered in the early 1960 s and has since then troubled scientists with its peculiar catalytic activity and high exp...The membrane-anchored myelin enzyme 2′,3′-cyclic nucleotide 3′-phosphodiesterase(CNPase) was discovered in the early 1960 s and has since then troubled scientists with its peculiar catalytic activity and high expression levels in the central nervous system. Despite decades of research, the actual physiological relevance of CNPase has only recently begun to unravel. In addition to a role in myelination, CNPase is also involved in local adenosine production in traumatic brain injury and possibly has a regulatory function in mitochondrial membrane permeabilization. Although research focusing on the CNPase phosphodiesterase activity has been helpful, several open questions concerning the protein function in vivo remain unanswered. This review is focused on past research on CNPase, especially in the fields of structural biology and enzymology, and outlines the current understanding regarding the biochemical and physiological significance of CNPase, providing ideas and directions for future research.展开更多
Cyclic dinucleotides(CDNs) are known to activate stimulator of interferon genes(STING) and induce type I interferon responses, therefor possess great potentials to be of immunotherapeutic value for cancers and infecti...Cyclic dinucleotides(CDNs) are known to activate stimulator of interferon genes(STING) and induce type I interferon responses, therefor possess great potentials to be of immunotherapeutic value for cancers and infectious diseases. However, the existence of different single nucleotide polymorphism(SNP) of human STING(hSTING) gene poses an obstacle to achieve broad-spectrum activation by CDNs. We reported here the design and synthesis of a total of 36 CDNs, representing all structural variations, that contain four bases(A, G, C, U) and two linkage directions(2′-5′-linked and 3′-5′-linked phosphodiester).Through systematic evaluation of IFN-β induction with a dual-luciferase reporter assay, we discovered that wild type hSTING and two isoforms(HAQ and AQ) showed strong response while hSTING-R232 H and R293 Q exhibited the relatively weak response to CDNs stimulation. For the first time, we found that the c[G(2′,5′)U(2′,5′)] showed excellent activity against all five hSTING variants even equivalent to the endogenous ligand c[G(2′,5′)A(3′,5′)]. Furthermore, we have also demonstrated that 3′-3′CDNs with two 3′-5′ phosphodiesters showed higher serum and hydrolase stability than 2′-2′ CDNs with two 2′-5′ phosphodiesters and 2′-3′ CDNs with one 2′-5′ and one 3′-5′ phosphodiester. It is very interesting to note that 2′-2′ CDNs has been found for the first time to show strong activity. These findings will stimulate our exploration for the new functional role of CDNs, and provide guidelines to design CDNs based hSTING targeted drugs.展开更多
目的:在缺血性卒中家系中探讨PDE4D基因rs966221位点多态性与缺血性卒中及其相关性状的关系。方法:采用家系研究设计,应用广义估计方程(generalized estimating equation,GEE)进行多因素的回归分析,并用非参数连锁分析和以家系为基础的...目的:在缺血性卒中家系中探讨PDE4D基因rs966221位点多态性与缺血性卒中及其相关性状的关系。方法:采用家系研究设计,应用广义估计方程(generalized estimating equation,GEE)进行多因素的回归分析,并用非参数连锁分析和以家系为基础的关联检验(family based association test,FBAT)进行连锁和关联分析。结果:共纳入276个缺血性卒中家系,776名研究对象。应用GEE控制混杂因素并调整家系内部相关性后,载脂蛋白B、颈动脉内膜中层厚度、高密度脂蛋白胆固醇及血压水平与缺血性卒中相关(P<0.05)。非参数连锁分析和FBAT分析均未发现rs966221位点多态性与缺血性卒中相关,但该位点与卒中相关的数量性状存在连锁和关联关系。非参数连锁分析发现,在调整可能的混杂因素后,rs966221位点与载脂蛋白B(P<0.001)、超敏C反应蛋白水平(P=0.003)、收缩压(P=0.036)存在连锁;在调整高脂血症、高血压等疾病的患病状态后,rs966221位点TT基因型(P=0.019)和CT基因型(P=0.007)与颈动脉内膜中层厚度相关,显性模型中C等位基因与颈动脉内膜中层厚度具有统计学关联(P=0.019)。结论:血脂、血压的异常以及颈动脉内膜中层增厚与缺血性卒中相关,PDE4D基因rs966221位点与载脂蛋白B、超敏C反应蛋白及收缩压水平存在连锁,该位点C等位基因与颈动脉内膜中层厚度具有统计学关联。展开更多
文摘Islets from RIP-PDE3B mice, exhibiting β-cell specific overexpression of the cAMP/cGMP-degrading enzyme phosphodiesterase 3B (PDE3B) and dysregulated insulin secretion, were subjected to microarray analysis. We show that osteopontin (OPN) mRNA is increased in a dose-dependent manner in islets from RIP-PDE3B mice, as compared to wild-type islets. In addition, in silico analysis shows that PDE3B and OPN are interacting. Furthermore, OPN interacts with protein kinase CK2 ina distinct submodule of the protein-protein interaction network. We studied PDE3B and OPN proteins and, in some cases, also PDE1B and PDE4C, under conditions of relevance for insulin secretion. In the presence of forskolin, PDE inhibitors, insulin, or a protein kinase CK2 inhibitor, similar alterations in protein levels of PDE3B and OPN are shown. In summary, results from using a number of strategies demonstrate a connection between PDE3B and OPNas well as a role for protein kinase CK2 inpancreatic β-cells.
文摘Cyclic-nucleotide phosphodiesterase 1(PDE1) is a unique enzyme family hydrolyzing both cyclic guanosine monophosphate(cGMP) and cyclic adenosine monophosphate(cAMP) intra-cellular signaling molecules. A unique aspect of this enzyme family is its activation by calcium-calmodulin upon excitation of excitatory cells such as neurons and cardiomyocytes. In chronic degenerative diseases such as Parkinson disease,Alzheimer disease and heart failure,over-stimulation and chronic excessive levels of intra-cellular calcium leads to cell death. Targeting the PDE1 enzyme family with enzyme inhibitors is a novel approach to develop therapeutic agents for degenerative disorders. ITI-214 is a potent,and selective PDE1 inhibitor that has been tested in four human clinical trials. It is safe and well tolerated even at high dose levels that lead to high plasma and cerebral spinal fluid levels. In animal models,ITI-214 has cognitive enhancing properties as demonstrated in the rat novel object recognition model. Using a unilateral 6-hydroxy-dopamine lesion mouse model,the cylinder test readout of front paw use indicated that ITI-214 displays L-DOPA sparing effects ITI-214 reverses catalepsy induced by the potent dopamine D2 receptor antagonist haloperidol,indicating potential applications in Parkinson disease and as an adjunctive treatment in schizophrenia. Aspects of the Intra-Cellular Therapies PDE1 inhibitor program wil be outlined and the potential application to multiple therapeutic areas wil be discussed.
基金supported by the National Natural Science Foundation of China(No.31070928,30600198)the Natural Science Foundation of Guangdong Province,China(No.06301101)the Medical Research Program of Guangdong Province,China(No.A2010259)
文摘Objective Cyclic nucleotide phosphodiesterase(PDE)is a critical component of the nitric oxide(NO)signaling pathway and plays critical roles in cognition and learning,Parkinson’s disease,attention deficit hyperactivity disorder, psychosis and depression.The PDEs in the brain of guinea pig have not yet been reported.The present study aimed to detect the unknown Pde cDNAs in the brain of guinea pig.Methods Reverse transcription polymerase chain reaction(RT-PCR)and sequence comparison analysis were performed to detect the expression of Pde cDNAs and to assess the identity rates of cDNA and amino acid sequences between guinea pig and human or mouse,respectvely.The RT-PCR primers were located on the conserved region of human PDE and mouse Pde cDNAs.Results Eleven novel Pde cDNAs were detected in the brain of guinea pig(Cavia porcellus),including CpPde1a,CpPde1b,CpPde2a,CpPde4a,CpPde4d,CpPde5a,CpPde6c,CpPde7b, CpPde8a,CpPde9a,and CpPde10a.The identity rates of the Pde cDNA sequences between guinea pig and human ranged from 83.8%to 94.3%,and those of the amino acid sequences ranged from 91.9%to 100%.The identity rates of Pde cDNA sequences between guinea pig and mouse ranged from 84.6%to 92.1%,and those of amino acid sequences ranged from 91.2% to 99.2%.The average identity rate of the 11 Pde cDNA sequences between guinea pig and human was significantly higher(P 0.01)than that between guinea pig and mouse.The putative partial amino acid sequences of guinea pig contained at least one of the conserved domains of human and mouse PDE proteins.Conclusion These results indicate that the brainexpressed Pde genes are identified in guinea pig,which lays the foundation for further investigating the physiological roles of PDE proteins in the brain.
基金supported by grants from the Department of Biochemistry,University of Ouluthe Sigrid Jusélius Foundation (Finland)+1 种基金the Academy of Finlandthe Hamburg Research and Science Foundation (Germany)
文摘The membrane-anchored myelin enzyme 2′,3′-cyclic nucleotide 3′-phosphodiesterase(CNPase) was discovered in the early 1960 s and has since then troubled scientists with its peculiar catalytic activity and high expression levels in the central nervous system. Despite decades of research, the actual physiological relevance of CNPase has only recently begun to unravel. In addition to a role in myelination, CNPase is also involved in local adenosine production in traumatic brain injury and possibly has a regulatory function in mitochondrial membrane permeabilization. Although research focusing on the CNPase phosphodiesterase activity has been helpful, several open questions concerning the protein function in vivo remain unanswered. This review is focused on past research on CNPase, especially in the fields of structural biology and enzymology, and outlines the current understanding regarding the biochemical and physiological significance of CNPase, providing ideas and directions for future research.
基金the National Key Research and Development Program of China(2017YFD0200500)the National Natural Science Foundation of China(21740002,21837001)。
文摘Cyclic dinucleotides(CDNs) are known to activate stimulator of interferon genes(STING) and induce type I interferon responses, therefor possess great potentials to be of immunotherapeutic value for cancers and infectious diseases. However, the existence of different single nucleotide polymorphism(SNP) of human STING(hSTING) gene poses an obstacle to achieve broad-spectrum activation by CDNs. We reported here the design and synthesis of a total of 36 CDNs, representing all structural variations, that contain four bases(A, G, C, U) and two linkage directions(2′-5′-linked and 3′-5′-linked phosphodiester).Through systematic evaluation of IFN-β induction with a dual-luciferase reporter assay, we discovered that wild type hSTING and two isoforms(HAQ and AQ) showed strong response while hSTING-R232 H and R293 Q exhibited the relatively weak response to CDNs stimulation. For the first time, we found that the c[G(2′,5′)U(2′,5′)] showed excellent activity against all five hSTING variants even equivalent to the endogenous ligand c[G(2′,5′)A(3′,5′)]. Furthermore, we have also demonstrated that 3′-3′CDNs with two 3′-5′ phosphodiesters showed higher serum and hydrolase stability than 2′-2′ CDNs with two 2′-5′ phosphodiesters and 2′-3′ CDNs with one 2′-5′ and one 3′-5′ phosphodiester. It is very interesting to note that 2′-2′ CDNs has been found for the first time to show strong activity. These findings will stimulate our exploration for the new functional role of CDNs, and provide guidelines to design CDNs based hSTING targeted drugs.
文摘目的:在缺血性卒中家系中探讨PDE4D基因rs966221位点多态性与缺血性卒中及其相关性状的关系。方法:采用家系研究设计,应用广义估计方程(generalized estimating equation,GEE)进行多因素的回归分析,并用非参数连锁分析和以家系为基础的关联检验(family based association test,FBAT)进行连锁和关联分析。结果:共纳入276个缺血性卒中家系,776名研究对象。应用GEE控制混杂因素并调整家系内部相关性后,载脂蛋白B、颈动脉内膜中层厚度、高密度脂蛋白胆固醇及血压水平与缺血性卒中相关(P<0.05)。非参数连锁分析和FBAT分析均未发现rs966221位点多态性与缺血性卒中相关,但该位点与卒中相关的数量性状存在连锁和关联关系。非参数连锁分析发现,在调整可能的混杂因素后,rs966221位点与载脂蛋白B(P<0.001)、超敏C反应蛋白水平(P=0.003)、收缩压(P=0.036)存在连锁;在调整高脂血症、高血压等疾病的患病状态后,rs966221位点TT基因型(P=0.019)和CT基因型(P=0.007)与颈动脉内膜中层厚度相关,显性模型中C等位基因与颈动脉内膜中层厚度具有统计学关联(P=0.019)。结论:血脂、血压的异常以及颈动脉内膜中层增厚与缺血性卒中相关,PDE4D基因rs966221位点与载脂蛋白B、超敏C反应蛋白及收缩压水平存在连锁,该位点C等位基因与颈动脉内膜中层厚度具有统计学关联。
