Polyamine metabolism dysregulation is a hallmark of many cancers,offering a promising avenue for early tumor theranostics.This study presents the development of a nuclear probe derived from spermidine(SPM)for dual-pur...Polyamine metabolism dysregulation is a hallmark of many cancers,offering a promising avenue for early tumor theranostics.This study presents the development of a nuclear probe derived from spermidine(SPM)for dual-purpose tumor PET imaging and internal radiation therapy.The probe,radiolabeled with either[68Ga]Ga for diagnostic applications or[177Lu]Lu for therapeutic use,was synthesized with exceptional purity,stability,and specific activity.Extensive testing involving 12 different tumor cell lines revealed remarkable specificity towards B16 melanoma cells,showcasing outstanding tumor localization and target-to-non-target ratio.Mechanistic investigations employing polyamines,non-labeled precursor,and polyamine transport system(PTS)inhibitor,consistently affirmed the probe?s targetability through recognition of the PTS.Notably,while previous reports indicated PTS upregulation in various tumor types for targeted therapy,this study observed no positive signals,highlighting a concentration-dependent discrepancy between targeting for therapy and diagnosis.Furthermore,when labeled with[177Lu],the probe demonstrated its therapeutic potential by effectively controlling tumor growth and extending mouse survival.Investigations into biodistribution,excretion,and biosafety in healthy humans laid a robust foundation for clinical translation.This study introduces a versatile SPM-based nuclear probe with applications in precise tumor theranostics,offering promising prospects for clinical implementation.展开更多
The free putrescine (Put) content, the hydrogen peroxide (H202) content and the polyamine oxidase (PAO) activity in roots of Malus hupehensis Rehd. var. pinyiensis Jiang (PYTC) were significantly increased, an...The free putrescine (Put) content, the hydrogen peroxide (H202) content and the polyamine oxidase (PAO) activity in roots of Malus hupehensis Rehd. var. pinyiensis Jiang (PYTC) were significantly increased, and reached its peak at 1, 2 and 6 h, respectively, under cadmium treatment. The free spermine (Spin) and spermidine (Spd) contents were dramatically decreased, and reached the minimum value at 4-6 h, then remained relatively stable. The change in total free polyammes (PAs) content was consistent with that of free Put. The number of root dead cells was gradually increased after treatment for 24 h, and the typical characteristics of programmed cell death (PCD) were displayed at 48 h. Throughout the Cd treatment process, changes in PAs metabolism appeared to be prior to cell death increase, and the H2O2 content was always maintained at a high level. These results indicated that polyamines could initiate cell death by generating H2O2 in roots of Malus hupehensis Rehd. under CdSO4 stress.展开更多
Polyamines (mainly putrescine (Put), spermidine (Spd), and spermine (Spin)) have been widely found in a range of physiological processes and in almost all diverse environ- mental stresses. In various plant spe...Polyamines (mainly putrescine (Put), spermidine (Spd), and spermine (Spin)) have been widely found in a range of physiological processes and in almost all diverse environ- mental stresses. In various plant species, abiotic stresses modulated the accumulation of polyamines and related gene expression. Studies using loss-of-function mutants and transgenic overexpression plants modulating polyamine metabolic pathways confirmed protective roles of polyamines during plant abiotic stress responses, and indicated the possibility to improve plant tolerance through genetic manipulation of the polyamine pathway. Additionally, puta- tive mechanisms of polyamines involved in plant abiotic stress tolerance were thoroughly discussed and crosstalks among polyamine, abscisic acid, and nitric oxide in plant responses to abiotic stress were emphasized. Special attention was paid to the interaction between polyamine and reactive oxygen species, ion channels, amino acid and carbon metabolism, and other adaptive responses. Further studies are needed to elucidate the polyamine signaling pathway, especially polyamine-regulated downstream tar- gets and the connections between polyamines and other stress responsive molecules.展开更多
L-proline(Pro)is a precursor of ornithine,which is converted into polyamines via ornithine decarboxylase(ODC).Polyamines plays a key role in the proliferation of intestinal epithelial cells.The study investigated the ...L-proline(Pro)is a precursor of ornithine,which is converted into polyamines via ornithine decarboxylase(ODC).Polyamines plays a key role in the proliferation of intestinal epithelial cells.The study investigated the effect of Pro on polyamine metabolism and cell proliferation on porcine enterocytes in vivo and in vitro.Twenty-four Huanjiang mini-pigs were randomly assigned into 1 of 3 groups and fed a basal diet that contained 0.77%alanine(Ala,iso-nitrogenous control),1%Pro or 1%Pro+0.0167%α-difluoromethylornithine(DFMO)from d 15 to 70 of gestation.The fetal body weight and number of fetuses per litter were determined,and the small and large intestines were obtained on d 70±1.78 of gestation.The in vitro study was performed in intestinal porcine epithelial(IPEC-J2)cells cultured in Dulbecco’s modified Eagle medium-high glucose(DMEM-H)containing 0μmol/L Pro,400μmol/L Pro,or400μmol/L Pro+10 mmol/L DFMO for 4 d.The results showed that maternal dietary supplementation with 1%Pro increased fetal weight;the protein and DNA concentrations of the fetal small intestine;and mRNA levels for potassium voltage-gated channel,shaker-related subfamily,member 1(Kv1.1)in the fetal small and large intestines(P<0.05).Supplementing Pro to either gilts or IPEC-J2 cells increased ODC protein abundances and polyamine concentrations in the fetal intestines and IPEC-J2 cells(P<0.05).In comparison with the Pro group,the combined administration of Pro and DFMO reduced the expression of ODC protein and spermine concentration in the fetal intestine,as well as the concentrations of putrescine,spermidine and spermine in IPEC-J2 cells(P<0.05).Meanwhile,the percentage of cells in the S-phase and the mRNA levels of proto-oncogenes c-fos and c-myc were increased in response to Pro supplementation,whereas depletion of cellular polyamines with DFMO increased tumor protein p53(p53)mRNA levels(P<0.05).Taken together,dietary supplementation with Pro improved fetal pig growth and intestinal epithelial cell proliferation via enhancing polyamine synthesis.展开更多
基金supported by the Science and Technology Innovation Team Talent Project of Hunan Province(No.2021RC4056)the clinical research foundation of the National Clinical Research Center for Geriatric Diseases(XIANGYA)(No.2020LNJJ01)+1 种基金the Natural Science Foundation of Hunan Province in China(No.2021JJ20084)the Science and Technology Innovation Program of Hunan Province(No.2021RC3020)。
文摘Polyamine metabolism dysregulation is a hallmark of many cancers,offering a promising avenue for early tumor theranostics.This study presents the development of a nuclear probe derived from spermidine(SPM)for dual-purpose tumor PET imaging and internal radiation therapy.The probe,radiolabeled with either[68Ga]Ga for diagnostic applications or[177Lu]Lu for therapeutic use,was synthesized with exceptional purity,stability,and specific activity.Extensive testing involving 12 different tumor cell lines revealed remarkable specificity towards B16 melanoma cells,showcasing outstanding tumor localization and target-to-non-target ratio.Mechanistic investigations employing polyamines,non-labeled precursor,and polyamine transport system(PTS)inhibitor,consistently affirmed the probe?s targetability through recognition of the PTS.Notably,while previous reports indicated PTS upregulation in various tumor types for targeted therapy,this study observed no positive signals,highlighting a concentration-dependent discrepancy between targeting for therapy and diagnosis.Furthermore,when labeled with[177Lu],the probe demonstrated its therapeutic potential by effectively controlling tumor growth and extending mouse survival.Investigations into biodistribution,excretion,and biosafety in healthy humans laid a robust foundation for clinical translation.This study introduces a versatile SPM-based nuclear probe with applications in precise tumor theranostics,offering promising prospects for clinical implementation.
基金the National Natural Science Foundation of China (30671452 and 31171923)
文摘The free putrescine (Put) content, the hydrogen peroxide (H202) content and the polyamine oxidase (PAO) activity in roots of Malus hupehensis Rehd. var. pinyiensis Jiang (PYTC) were significantly increased, and reached its peak at 1, 2 and 6 h, respectively, under cadmium treatment. The free spermine (Spin) and spermidine (Spd) contents were dramatically decreased, and reached the minimum value at 4-6 h, then remained relatively stable. The change in total free polyammes (PAs) content was consistent with that of free Put. The number of root dead cells was gradually increased after treatment for 24 h, and the typical characteristics of programmed cell death (PCD) were displayed at 48 h. Throughout the Cd treatment process, changes in PAs metabolism appeared to be prior to cell death increase, and the H2O2 content was always maintained at a high level. These results indicated that polyamines could initiate cell death by generating H2O2 in roots of Malus hupehensis Rehd. under CdSO4 stress.
基金supported by "the Hundred Talents Program," the Knowledge Innovative Key Program of the Chinese Academy of Sciences (No. Y154761O01076 and Y329631O0263) to Zhulong Chanby the National Natural Science Foundation of China to Zhulong Chan (No. 31370302) and Haitao Shi (No. 31200194)
文摘Polyamines (mainly putrescine (Put), spermidine (Spd), and spermine (Spin)) have been widely found in a range of physiological processes and in almost all diverse environ- mental stresses. In various plant species, abiotic stresses modulated the accumulation of polyamines and related gene expression. Studies using loss-of-function mutants and transgenic overexpression plants modulating polyamine metabolic pathways confirmed protective roles of polyamines during plant abiotic stress responses, and indicated the possibility to improve plant tolerance through genetic manipulation of the polyamine pathway. Additionally, puta- tive mechanisms of polyamines involved in plant abiotic stress tolerance were thoroughly discussed and crosstalks among polyamine, abscisic acid, and nitric oxide in plant responses to abiotic stress were emphasized. Special attention was paid to the interaction between polyamine and reactive oxygen species, ion channels, amino acid and carbon metabolism, and other adaptive responses. Further studies are needed to elucidate the polyamine signaling pathway, especially polyamine-regulated downstream tar- gets and the connections between polyamines and other stress responsive molecules.
基金supported by National Key R&D Program(2017YFD0500503)Postdoctoral Science Foundation(BX20180096)+2 种基金Hunan Province Science and Technology Projects(2017RS3059)Innovation Province Project(2019RS3021)in ChinaTexas A&M AgriLife Research(H-8200)in USA
文摘L-proline(Pro)is a precursor of ornithine,which is converted into polyamines via ornithine decarboxylase(ODC).Polyamines plays a key role in the proliferation of intestinal epithelial cells.The study investigated the effect of Pro on polyamine metabolism and cell proliferation on porcine enterocytes in vivo and in vitro.Twenty-four Huanjiang mini-pigs were randomly assigned into 1 of 3 groups and fed a basal diet that contained 0.77%alanine(Ala,iso-nitrogenous control),1%Pro or 1%Pro+0.0167%α-difluoromethylornithine(DFMO)from d 15 to 70 of gestation.The fetal body weight and number of fetuses per litter were determined,and the small and large intestines were obtained on d 70±1.78 of gestation.The in vitro study was performed in intestinal porcine epithelial(IPEC-J2)cells cultured in Dulbecco’s modified Eagle medium-high glucose(DMEM-H)containing 0μmol/L Pro,400μmol/L Pro,or400μmol/L Pro+10 mmol/L DFMO for 4 d.The results showed that maternal dietary supplementation with 1%Pro increased fetal weight;the protein and DNA concentrations of the fetal small intestine;and mRNA levels for potassium voltage-gated channel,shaker-related subfamily,member 1(Kv1.1)in the fetal small and large intestines(P<0.05).Supplementing Pro to either gilts or IPEC-J2 cells increased ODC protein abundances and polyamine concentrations in the fetal intestines and IPEC-J2 cells(P<0.05).In comparison with the Pro group,the combined administration of Pro and DFMO reduced the expression of ODC protein and spermine concentration in the fetal intestine,as well as the concentrations of putrescine,spermidine and spermine in IPEC-J2 cells(P<0.05).Meanwhile,the percentage of cells in the S-phase and the mRNA levels of proto-oncogenes c-fos and c-myc were increased in response to Pro supplementation,whereas depletion of cellular polyamines with DFMO increased tumor protein p53(p53)mRNA levels(P<0.05).Taken together,dietary supplementation with Pro improved fetal pig growth and intestinal epithelial cell proliferation via enhancing polyamine synthesis.
