The title compound 2 (C15H22NO4PS, Mr = 343.38) was prepared by the reaction of α-benzoylthioformmorpholine 1 with trimethyl phosphite. The crystal is of monoclinic, space group P21/c with a = 14.906(2), b = ...The title compound 2 (C15H22NO4PS, Mr = 343.38) was prepared by the reaction of α-benzoylthioformmorpholine 1 with trimethyl phosphite. The crystal is of monoclinic, space group P21/c with a = 14.906(2), b = 8.4711(12), c = 13.343(2) ?, β = 96.761(4)o, Z = 4, V = 1673.1(5) ?3, Dc = 1.363 g/cm3, μ(MoKα) = 3.06 cm-1, F(000) = 728, the final R = 0.0590 and wR = 0.1740 for 3036 observed reflections (I > 2σ(I)). X-ray analysis revealed that the interatomic distance of C(5)–C(6) is 1.353(4) ?, indicating it is a normal C=C double bond. The P(1) atom takes a distorted tetrahedral geometry, and the morpholine ring adopts a chair conformation. The morpholino group is located at the 1-position of vinylphosphonate, and the phenyl and thiomethyl groups at the 2-position.展开更多
The title compound 2,5-bis(morpholino)-3,4-bis(p-chlorophenyl) thiophene 2 was obtained by the reaction of -thio-p-chlorobenzoyl thioformmorpholine 1 with trimethyl phosphite in refluxing xylene. The crystal is of tri...The title compound 2,5-bis(morpholino)-3,4-bis(p-chlorophenyl) thiophene 2 was obtained by the reaction of -thio-p-chlorobenzoyl thioformmorpholine 1 with trimethyl phosphite in refluxing xylene. The crystal is of triclinic, space group P?with unit cell constants: a = 6.0740(1), b = 10.3250(1), c = 19.779(2) , ?= 76.740(1), = 87.110(1), = 74.920(1), C24H24Cl2N2O2S, Mr = 475.41, Z = 2, V = 1165.7(3) ?, Dc = 1.354 g/cm3, (MoK) = 0.71073, = 0.392 mm-1, F(000) = 496, the final R = 0.0324 and wR = 0.0819 for 3102 observed reflections (I > 2(I)). X-ray analysis reveals that the two morpholinyl groups are located at the -position of thiophene, and the two p-chlorophenyl groups at the -position. Therefore, the title compound is a new symmetric thiophene derivative.展开更多
In an attempt to develop potent and selective anticancer agents,we designed and synthesized a series of novel bis(morpholino-1,3,5-triazine) derivatives beating aylmethylene hydrazine moiety and evaluated their cyto...In an attempt to develop potent and selective anticancer agents,we designed and synthesized a series of novel bis(morpholino-1,3,5-triazine) derivatives beating aylmethylene hydrazine moiety and evaluated their cytotoxicity,in vitro,against H460(non-small-cell lung cancer),HT-29(human colorectal cancer) and MDA-MB-231(human breast cancer) cell lines.The pharmacological results indicate that all the compounds exhibit enhanced cytotoxicity than BMCL-200908069-1,and six target compounds(7e,7h,7j,9a,9b,9c) were superior to PAC-1 against all the tested cancer cell lines.The most active compound 7j,with IC50(inhibitory concentration 50%)values of 0.75,0.34 and 0.60 μ mol/L against HT-29,H460 and MDA-MB-231 cancer cell lines,was 39-,28-,and 60-fold more potent than BMCL-200908069-1 (29.24,9.52 and 36.21 μmol/L),respectively.展开更多
为了探究蛋白激酶D(protein kinase D,PKD;又名PRKD)家族典型成员prkd1基因对早期心脏发育的影响,选用模式动物斑马鱼为研究对象,设计了吗啉代反义寡核苷酸敲低实验。表型观察结果显示,prkd1基因敲低会导致斑马鱼心脏发育异常,出现心包...为了探究蛋白激酶D(protein kinase D,PKD;又名PRKD)家族典型成员prkd1基因对早期心脏发育的影响,选用模式动物斑马鱼为研究对象,设计了吗啉代反义寡核苷酸敲低实验。表型观察结果显示,prkd1基因敲低会导致斑马鱼心脏发育异常,出现心包水肿、环化异常、心管线性化等畸形表型;斑马鱼心率分析数据显示,与野生型斑马鱼相比,prkd1基因的敲低会导致早期斑马鱼心率降低。利用转录组高通量测序技术对受精后3 d(3 days post fertilization,3 dpf)的斑马鱼对照组和敲低prkd1组进行测序,差异基因富集分析表明,prkd1的敲低与心脏相关信号通路如心肌细胞的肾上腺素信号通路等显著相关。进一步通过qRT-PCR对高通量测序结果进行验证,并对早期心脏发育关键因子进行检测,结果显示,部分心血管相关基因显著下调,tbx5a、gata4等心脏调控关键基因同样显著下调。这些表明prkd1基因可能通过调控心脏发育相关信号通路以及心脏发育关键基因来影响早期心脏发育,在早期心脏发育过程中发挥重要作用。展开更多
Paralysis following spinal cord injury (SCI) is due to failure of axonal regeneration. It is believed that the capacities of neurons to regrow their axons are due partly to their intrinsic characteristics, which in ...Paralysis following spinal cord injury (SCI) is due to failure of axonal regeneration. It is believed that the capacities of neurons to regrow their axons are due partly to their intrinsic characteristics, which in turn are greatly influenced by several types of inhibitory molecules that are present, or even increased in the extracellular environment of the injured spinal cord. Many of these inhibitory molecules have been studied extensively in recent years. It has been suggested that the small GTPase RhoA is an intracellular convergence point for signaling by these extracellular inhibitory molecules, but due to the complexity of the central nervous system (CNS) in mammals, and the limitation of pharmacological tools, the specific roles of RhoA are unclear. By exploiting the anatomical and technical advantages of the lamprey CNS, we recently demonstrated that RhoA knockdown promotes true axon regeneration through the lesion site after SCI. In addition, we found that RhoA knockdown protects the large, identified reticulospinal neurons from apoptosis after their axons were axotomized in spinal cord. Therefore, manipulation of the RhoA signaling pathway may be an important approach in the development of treatments that are both neuroprotective and axon regeneration-promoting, to enhance functional recovery after SCI.展开更多
A potential treatment for retinal diseases is to induce an endogenous Müller glia(MG)-derived regenerative response to replace damaged neurons.In contrast to mammalian MG,zebrafish MG are capable of mediating spo...A potential treatment for retinal diseases is to induce an endogenous Müller glia(MG)-derived regenerative response to replace damaged neurons.In contrast to mammalian MG,zebrafish MG are capable of mediating spontaneous regeneration.We seek to define the mechanisms that enable retina regeneration in zebrafish in order to identify therapeutic targets to induce mammalian retina regeneration.We previously used pharmacological and genetic methods to inhibit gamma aminobutyric acid A(GABAA)receptors in undamaged zebrafish retinas and showed that such inhibition could induce initiation of retina regeneration,as measured by the dedifferentiation of MG and the appearance of MG-derived proliferating progenitor cells.Here,we show that inhibition of a pharmacologically distinct subset of GABAA receptors(GABAA-ρ)can also induce retina regeneration.Dual inhibition of both GABA receptor subtypes led to enhanced retina regeneration.Gene expression analyses indicate that inhibition of GABAA-ρreceptors induces a canonical retinal regenerative response.Our results support a model in which decreased levels of GABA,such as would occur after retinal cell death or damage,induce dedifferentiation of MG and the generation of proliferating progenitor cells during zebrafish retina regeneration.Animal experiments were approved by the Vanderbilt's Institutional Animal Care and Use Committee(Protocol M1800200)on January 29,2019.展开更多
基金The project was supported by the Key Laboratory of Organic Synthesis of Jiangsu Province (JSK016)
文摘The title compound 2 (C15H22NO4PS, Mr = 343.38) was prepared by the reaction of α-benzoylthioformmorpholine 1 with trimethyl phosphite. The crystal is of monoclinic, space group P21/c with a = 14.906(2), b = 8.4711(12), c = 13.343(2) ?, β = 96.761(4)o, Z = 4, V = 1673.1(5) ?3, Dc = 1.363 g/cm3, μ(MoKα) = 3.06 cm-1, F(000) = 728, the final R = 0.0590 and wR = 0.1740 for 3036 observed reflections (I > 2σ(I)). X-ray analysis revealed that the interatomic distance of C(5)–C(6) is 1.353(4) ?, indicating it is a normal C=C double bond. The P(1) atom takes a distorted tetrahedral geometry, and the morpholine ring adopts a chair conformation. The morpholino group is located at the 1-position of vinylphosphonate, and the phenyl and thiomethyl groups at the 2-position.
基金The project was supported by the Natural Science Foundation of Jiangsu Education Committee (99KJB 150001)
文摘The title compound 2,5-bis(morpholino)-3,4-bis(p-chlorophenyl) thiophene 2 was obtained by the reaction of -thio-p-chlorobenzoyl thioformmorpholine 1 with trimethyl phosphite in refluxing xylene. The crystal is of triclinic, space group P?with unit cell constants: a = 6.0740(1), b = 10.3250(1), c = 19.779(2) , ?= 76.740(1), = 87.110(1), = 74.920(1), C24H24Cl2N2O2S, Mr = 475.41, Z = 2, V = 1165.7(3) ?, Dc = 1.354 g/cm3, (MoK) = 0.71073, = 0.392 mm-1, F(000) = 496, the final R = 0.0324 and wR = 0.0819 for 3102 observed reflections (I > 2(I)). X-ray analysis reveals that the two morpholinyl groups are located at the -position of thiophene, and the two p-chlorophenyl groups at the -position. Therefore, the title compound is a new symmetric thiophene derivative.
文摘In an attempt to develop potent and selective anticancer agents,we designed and synthesized a series of novel bis(morpholino-1,3,5-triazine) derivatives beating aylmethylene hydrazine moiety and evaluated their cytotoxicity,in vitro,against H460(non-small-cell lung cancer),HT-29(human colorectal cancer) and MDA-MB-231(human breast cancer) cell lines.The pharmacological results indicate that all the compounds exhibit enhanced cytotoxicity than BMCL-200908069-1,and six target compounds(7e,7h,7j,9a,9b,9c) were superior to PAC-1 against all the tested cancer cell lines.The most active compound 7j,with IC50(inhibitory concentration 50%)values of 0.75,0.34 and 0.60 μ mol/L against HT-29,H460 and MDA-MB-231 cancer cell lines,was 39-,28-,and 60-fold more potent than BMCL-200908069-1 (29.24,9.52 and 36.21 μmol/L),respectively.
文摘为了探究蛋白激酶D(protein kinase D,PKD;又名PRKD)家族典型成员prkd1基因对早期心脏发育的影响,选用模式动物斑马鱼为研究对象,设计了吗啉代反义寡核苷酸敲低实验。表型观察结果显示,prkd1基因敲低会导致斑马鱼心脏发育异常,出现心包水肿、环化异常、心管线性化等畸形表型;斑马鱼心率分析数据显示,与野生型斑马鱼相比,prkd1基因的敲低会导致早期斑马鱼心率降低。利用转录组高通量测序技术对受精后3 d(3 days post fertilization,3 dpf)的斑马鱼对照组和敲低prkd1组进行测序,差异基因富集分析表明,prkd1的敲低与心脏相关信号通路如心肌细胞的肾上腺素信号通路等显著相关。进一步通过qRT-PCR对高通量测序结果进行验证,并对早期心脏发育关键因子进行检测,结果显示,部分心血管相关基因显著下调,tbx5a、gata4等心脏调控关键基因同样显著下调。这些表明prkd1基因可能通过调控心脏发育相关信号通路以及心脏发育关键基因来影响早期心脏发育,在早期心脏发育过程中发挥重要作用。
基金supported by R01-NS092876(NIH,MES,PI)SHC-85400(Shriners Research Foundation,MES,PI)+1 种基金SHC-85220(Shriners Research Foundation,MES,PI)SHC-84293(Shriners Research Foundation,JH,PI)
文摘Paralysis following spinal cord injury (SCI) is due to failure of axonal regeneration. It is believed that the capacities of neurons to regrow their axons are due partly to their intrinsic characteristics, which in turn are greatly influenced by several types of inhibitory molecules that are present, or even increased in the extracellular environment of the injured spinal cord. Many of these inhibitory molecules have been studied extensively in recent years. It has been suggested that the small GTPase RhoA is an intracellular convergence point for signaling by these extracellular inhibitory molecules, but due to the complexity of the central nervous system (CNS) in mammals, and the limitation of pharmacological tools, the specific roles of RhoA are unclear. By exploiting the anatomical and technical advantages of the lamprey CNS, we recently demonstrated that RhoA knockdown promotes true axon regeneration through the lesion site after SCI. In addition, we found that RhoA knockdown protects the large, identified reticulospinal neurons from apoptosis after their axons were axotomized in spinal cord. Therefore, manipulation of the RhoA signaling pathway may be an important approach in the development of treatments that are both neuroprotective and axon regeneration-promoting, to enhance functional recovery after SCI.
基金grants from the NIH R01EY024354-S1 and UO1 EY027265 to JGPand T32 EY021453additional support from the Stevenson family and Gisela Mosig endowments to Vanderbilt University。
文摘A potential treatment for retinal diseases is to induce an endogenous Müller glia(MG)-derived regenerative response to replace damaged neurons.In contrast to mammalian MG,zebrafish MG are capable of mediating spontaneous regeneration.We seek to define the mechanisms that enable retina regeneration in zebrafish in order to identify therapeutic targets to induce mammalian retina regeneration.We previously used pharmacological and genetic methods to inhibit gamma aminobutyric acid A(GABAA)receptors in undamaged zebrafish retinas and showed that such inhibition could induce initiation of retina regeneration,as measured by the dedifferentiation of MG and the appearance of MG-derived proliferating progenitor cells.Here,we show that inhibition of a pharmacologically distinct subset of GABAA receptors(GABAA-ρ)can also induce retina regeneration.Dual inhibition of both GABA receptor subtypes led to enhanced retina regeneration.Gene expression analyses indicate that inhibition of GABAA-ρreceptors induces a canonical retinal regenerative response.Our results support a model in which decreased levels of GABA,such as would occur after retinal cell death or damage,induce dedifferentiation of MG and the generation of proliferating progenitor cells during zebrafish retina regeneration.Animal experiments were approved by the Vanderbilt's Institutional Animal Care and Use Committee(Protocol M1800200)on January 29,2019.