Fritillaria cirrhosa D.Don(Liliaceae)is an endangered perennial bulbous plant and its dry bulb is a valuable med-icinal material with antitussive and expectorant effects.Nevertheless,lack of resources and expensive pr...Fritillaria cirrhosa D.Don(Liliaceae)is an endangered perennial bulbous plant and its dry bulb is a valuable med-icinal material with antitussive and expectorant effects.Nevertheless,lack of resources and expensive prices make it difficult to meet clinical needs.This study presents a regeneration system aimed at overcoming the challenge of inadequate supply in F.cirrhosa,focusing on:(1)callus induction,(2)bulblets and adventitious bud induction,and(3)artificial seed production.Callus development was achieved in 84.93%on Murashige and Skoog(MS)medium fortified with 1.0 mg·L^(-1) picloram.The optimal medium for callus differentiation into regenerated bulb-lets was MS medium supplemented with 1.0 mg·L^(-1)6-benzyladenine(6-BA)and 0.2 mg·L^(-1)α-naphthaleneacetic acid(NAA).Subsequently,bulblets and adventitious buds were induced from regenerated bulblet sections cul-tured on MS medium fortified with 0.3 mg·L^(-1)6-BA+1.0 mg·L^(-1)2,4-dichlorophenoxyacetic acid(2,4-D),2.0 mg·L^(-1)6-BA+0.5 mg·L^(-1),and the induction rates were 88.17%and 84.24%,respectively.The regenerated bulblets were transplanted into a substrate of humus soil,river sand,and pearlite(1:1:1)after low-temperature treatment.The germination rate was 42.80%after culture for 30 days.Regenerated bulblets were used for encap-sulations in liquid MS medium containing 3%sucrose(w/v)+0.5 mg·L^(-1) NAA+2.0 mg·L^(-1)6-BA+3%sodium alginate(w/v)with a 10 min exposure to 2%CaCl_(2).Under non-aseptic conditions,the germination rate reached 81.67%,while the rooting rate was 20.56%after 45 days.The capsule added 1.0 g·L^(-1) carbendazim and 1.0 g·L^(-1) activated carbon was the best component of artificial seeds.This study successfully established an efficient regen-eration system for the rapid propagation of F.cirrhosa,involving in vitro bulblet regeneration and artificial seed production.This method introduces a novel approach for efficient breeding and germplasm preservation,making it suitable for large-scale industrial resource production.展开更多
We have discovered and synthesized a series of indole-based derivatives as novel sigma-2(σ_(2))receptor ligands.Two ligands with high σ_(2) receptor affinity and subtype selectivity were then radiolabeled with F-18 ...We have discovered and synthesized a series of indole-based derivatives as novel sigma-2(σ_(2))receptor ligands.Two ligands with high σ_(2) receptor affinity and subtype selectivity were then radiolabeled with F-18 in good radiochemical yields and purities,and evaluated in rodents.In biodistribution studies in male ICR mice,radioligand[18F]9,or 1-(4-(5,6-dimethoxyisoindolin-2-yl)butyl)-4-(2-[18F]fluoroethoxy)-1H-indole,was found to display high brain uptake and high brain-to-blood ratio.Pretreatment of animals with the selective σ_(2) receptor ligand CM398 led to significant reductions in both brain uptake(29%-54%)and brain-to-blood ratio(60%-88%)of the radioligand in a dose-dependent manner,indicating high and saturable specific binding of[18F]9 to σ_(2) receptors in the brain.Further,ex vivo autoradiography in male ICR mice demonstrated regionally heterogeneous specific binding of[18F]9 in the brain that is consistent with the distribution pattern of σ_(2) receptors.Dynamic positron emission tomography imaging confirmed regionally distinct distribution and high levels of specific binding for[18F]9 in the rat brain,along with appropriate tissue kinetics.Taken together,results from our current study indicated the novel radioligand[18F]9 as the first highly specific and promising imaging agent for σ_(2) receptors in the brain.展开更多
Racemic[^(18)F]FBFP([^(18)F]1)proved to be a potentσ_(1) receptor radiotracer with superior imaging properties.The pure enantiomers of unlabeled compounds(S)-and(R)-1 and the corresponding iodonium ylide precursors w...Racemic[^(18)F]FBFP([^(18)F]1)proved to be a potentσ_(1) receptor radiotracer with superior imaging properties.The pure enantiomers of unlabeled compounds(S)-and(R)-1 and the corresponding iodonium ylide precursors were synthesized and characterized.The two enantiomers(S)-1 and(R)-1 exhibited comparable high affinity forσ_(1) receptors and selectivity overσ_(2) receptors.The Ca^(2+) fluorescence assay indicated that(R)-1 behaved as an antagonist and(S)-1 as an agonist forσ_(1) receptors.The ^(18)F-labeled enantiomers(S)-and(R)-[^(18)F]1 were obtained in>99%enantiomeric purity from the corresponding enantiopure iodonium ylide precursors with radiochemical yield of 24.4%±2.6%and molar activity of 86–214 GBq/μmol.In ICR mice both(S)-and(R)-[^(18)F]1displayed comparable high brain uptake,brain-to-blood ratio,in vivo stability and binding specificity in the brain and peripheral organs.In micro-positron emission tomography(PET)imaging studies in rats,(S)-[^(18)F]1 exhibited faster clearance from the brain than(R)-[^(18)F]1,indicating different brain kinetics of the two enantiomers.Both(S)-and(R)-[^(18)F]1 warrant further evaluation in primates to translate a single enantiomer with more suitable kinetics for imaging theσ_(1) receptors in humans.展开更多
基金funded by the National Key Research and Development Program of China(2018YFC1706101)the Science and Technology Program of Sichuan Province,China(2021YFS0045).
文摘Fritillaria cirrhosa D.Don(Liliaceae)is an endangered perennial bulbous plant and its dry bulb is a valuable med-icinal material with antitussive and expectorant effects.Nevertheless,lack of resources and expensive prices make it difficult to meet clinical needs.This study presents a regeneration system aimed at overcoming the challenge of inadequate supply in F.cirrhosa,focusing on:(1)callus induction,(2)bulblets and adventitious bud induction,and(3)artificial seed production.Callus development was achieved in 84.93%on Murashige and Skoog(MS)medium fortified with 1.0 mg·L^(-1) picloram.The optimal medium for callus differentiation into regenerated bulb-lets was MS medium supplemented with 1.0 mg·L^(-1)6-benzyladenine(6-BA)and 0.2 mg·L^(-1)α-naphthaleneacetic acid(NAA).Subsequently,bulblets and adventitious buds were induced from regenerated bulblet sections cul-tured on MS medium fortified with 0.3 mg·L^(-1)6-BA+1.0 mg·L^(-1)2,4-dichlorophenoxyacetic acid(2,4-D),2.0 mg·L^(-1)6-BA+0.5 mg·L^(-1),and the induction rates were 88.17%and 84.24%,respectively.The regenerated bulblets were transplanted into a substrate of humus soil,river sand,and pearlite(1:1:1)after low-temperature treatment.The germination rate was 42.80%after culture for 30 days.Regenerated bulblets were used for encap-sulations in liquid MS medium containing 3%sucrose(w/v)+0.5 mg·L^(-1) NAA+2.0 mg·L^(-1)6-BA+3%sodium alginate(w/v)with a 10 min exposure to 2%CaCl_(2).Under non-aseptic conditions,the germination rate reached 81.67%,while the rooting rate was 20.56%after 45 days.The capsule added 1.0 g·L^(-1) carbendazim and 1.0 g·L^(-1) activated carbon was the best component of artificial seeds.This study successfully established an efficient regen-eration system for the rapid propagation of F.cirrhosa,involving in vitro bulblet regeneration and artificial seed production.This method introduces a novel approach for efficient breeding and germplasm preservation,making it suitable for large-scale industrial resource production.
基金supported by the National Natural Science Foundation of China(No.21876013)Beijing Natural Science Foundation(7212203,China)。
文摘We have discovered and synthesized a series of indole-based derivatives as novel sigma-2(σ_(2))receptor ligands.Two ligands with high σ_(2) receptor affinity and subtype selectivity were then radiolabeled with F-18 in good radiochemical yields and purities,and evaluated in rodents.In biodistribution studies in male ICR mice,radioligand[18F]9,or 1-(4-(5,6-dimethoxyisoindolin-2-yl)butyl)-4-(2-[18F]fluoroethoxy)-1H-indole,was found to display high brain uptake and high brain-to-blood ratio.Pretreatment of animals with the selective σ_(2) receptor ligand CM398 led to significant reductions in both brain uptake(29%-54%)and brain-to-blood ratio(60%-88%)of the radioligand in a dose-dependent manner,indicating high and saturable specific binding of[18F]9 to σ_(2) receptors in the brain.Further,ex vivo autoradiography in male ICR mice demonstrated regionally heterogeneous specific binding of[18F]9 in the brain that is consistent with the distribution pattern of σ_(2) receptors.Dynamic positron emission tomography imaging confirmed regionally distinct distribution and high levels of specific binding for[18F]9 in the rat brain,along with appropriate tissue kinetics.Taken together,results from our current study indicated the novel radioligand[18F]9 as the first highly specific and promising imaging agent for σ_(2) receptors in the brain.
基金the financial support from Beijing Natural Science Foundation(No.7212203)National Natural Science Foundation of China(No.21876013)。
文摘Racemic[^(18)F]FBFP([^(18)F]1)proved to be a potentσ_(1) receptor radiotracer with superior imaging properties.The pure enantiomers of unlabeled compounds(S)-and(R)-1 and the corresponding iodonium ylide precursors were synthesized and characterized.The two enantiomers(S)-1 and(R)-1 exhibited comparable high affinity forσ_(1) receptors and selectivity overσ_(2) receptors.The Ca^(2+) fluorescence assay indicated that(R)-1 behaved as an antagonist and(S)-1 as an agonist forσ_(1) receptors.The ^(18)F-labeled enantiomers(S)-and(R)-[^(18)F]1 were obtained in>99%enantiomeric purity from the corresponding enantiopure iodonium ylide precursors with radiochemical yield of 24.4%±2.6%and molar activity of 86–214 GBq/μmol.In ICR mice both(S)-and(R)-[^(18)F]1displayed comparable high brain uptake,brain-to-blood ratio,in vivo stability and binding specificity in the brain and peripheral organs.In micro-positron emission tomography(PET)imaging studies in rats,(S)-[^(18)F]1 exhibited faster clearance from the brain than(R)-[^(18)F]1,indicating different brain kinetics of the two enantiomers.Both(S)-and(R)-[^(18)F]1 warrant further evaluation in primates to translate a single enantiomer with more suitable kinetics for imaging theσ_(1) receptors in humans.
