Fibrodysplasia ossificans progressiva(FOP)is a rare autosomal dominant congenital disorder characterized by progressive heterotopic ossification in muscle tissues.A constitutively activated mutation of a bone morphoge...Fibrodysplasia ossificans progressiva(FOP)is a rare autosomal dominant congenital disorder characterized by progressive heterotopic ossification in muscle tissues.A constitutively activated mutation of a bone morphogenetic protein(BMP)receptor,ALK2,has been identified in patients with FOP.We report here that four structurally related compounds,lucilactaene,hydroxylucilactaene,NG-391 and NG-393,produced by fungal strain Fusarium sp.B88,inhibit BMP signaling in vitro.Alkaline phosphatase activity,a marker enzyme of osteoblastic differentiation,was decreased in C2C12 myoblasts stably expressing mutant ALK2 by treatment with those compounds with IC_(50) values of 5.7,6.8,6.9 and 6.1 mM,respectively.Furthermore,NG-391 and NG-393 inhibited BMP-specific luciferase reporter activity,which is directly regulated by transcription factor Smads,with IC50 values of 1.4 and 2.1 mM,respectively.These findings suggest that these fungal metabolites may provide a new direction in the development of FOP therapeutics.展开更多
We examined the production of fungal metabolites as biological responses to 120 crude drugs by culturing the filamentous fungus Aspergillus fumigatus CBS101355 with crude drugs and analyzing the culture extracts by HP...We examined the production of fungal metabolites as biological responses to 120 crude drugs by culturing the filamentous fungus Aspergillus fumigatus CBS101355 with crude drugs and analyzing the culture extracts by HPLC. Nine crude drug extracts [Kyokatsu (Notopterygium), Kyonin (apricot kernel), Kujin (Sophora root), Goboshi (Burdock fruit), Goma (sesame), Shokyo (ginger), Shin’i (magnolia flower), Togashi (Benincasa seed), and Bukuryo (Poria sclerotium)] induced the production of trypacidin, which was not produced by culturing in potato dextrose broth without crude drugs.展开更多
Plants can be infected by multiple pathogens concurrently in natural systems. However,pathogen–pathogen interactions have rarely been studied. In addition to the oomycete Phytophthora sojae, fungi such as Fusarium sp...Plants can be infected by multiple pathogens concurrently in natural systems. However,pathogen–pathogen interactions have rarely been studied. In addition to the oomycete Phytophthora sojae, fungi such as Fusarium spp. also cause soybean root rot. In a 3-year field investigation, we discovered that P. sojae and Fusarium spp. frequently coexisted in diseased soybean roots. Out of 336 P. sojae–soybean–Fusarium combinations,more than 80% aggravated disease. Different Fusarium species all enhanced P. sojae infection when co-inoculated on soybean. Treatment with Fusarium secreted non-proteinaceous metabolites had an effect equal to the direct pathogen coinoculation. By screening a Fusarium graminearum mutant library, we identified Fusarium promoting factor of Phytophthora sojae infection 1(Fpp1),encoding a zinc alcohol dehydrogenase. Fpp1 is functionally conserved in Fusarium and contributes to metabolite-mediated infection promotion, in which vitamin B6(VB6) produced by Fusarium is key. Transcriptional and functional analyses revealed that Fpp1 regulates two VB6 metabolism genes, and VB6 suppresses expression of soybean disease resistance-related genes. These results reveal that co-infection with Fusarium promotes loss of P. sojae resistance in soybean, information that will inform the sustainable use of diseaseresistant crop varieties and provide new strategies to control soybean root rot.展开更多
文摘Fibrodysplasia ossificans progressiva(FOP)is a rare autosomal dominant congenital disorder characterized by progressive heterotopic ossification in muscle tissues.A constitutively activated mutation of a bone morphogenetic protein(BMP)receptor,ALK2,has been identified in patients with FOP.We report here that four structurally related compounds,lucilactaene,hydroxylucilactaene,NG-391 and NG-393,produced by fungal strain Fusarium sp.B88,inhibit BMP signaling in vitro.Alkaline phosphatase activity,a marker enzyme of osteoblastic differentiation,was decreased in C2C12 myoblasts stably expressing mutant ALK2 by treatment with those compounds with IC_(50) values of 5.7,6.8,6.9 and 6.1 mM,respectively.Furthermore,NG-391 and NG-393 inhibited BMP-specific luciferase reporter activity,which is directly regulated by transcription factor Smads,with IC50 values of 1.4 and 2.1 mM,respectively.These findings suggest that these fungal metabolites may provide a new direction in the development of FOP therapeutics.
文摘We examined the production of fungal metabolites as biological responses to 120 crude drugs by culturing the filamentous fungus Aspergillus fumigatus CBS101355 with crude drugs and analyzing the culture extracts by HPLC. Nine crude drug extracts [Kyokatsu (Notopterygium), Kyonin (apricot kernel), Kujin (Sophora root), Goboshi (Burdock fruit), Goma (sesame), Shokyo (ginger), Shin’i (magnolia flower), Togashi (Benincasa seed), and Bukuryo (Poria sclerotium)] induced the production of trypacidin, which was not produced by culturing in potato dextrose broth without crude drugs.
基金supported by grants from the National Natural Science Foundation of China (3217237431721004)the China Agriculture Research System (CARS-004-PS14)。
文摘Plants can be infected by multiple pathogens concurrently in natural systems. However,pathogen–pathogen interactions have rarely been studied. In addition to the oomycete Phytophthora sojae, fungi such as Fusarium spp. also cause soybean root rot. In a 3-year field investigation, we discovered that P. sojae and Fusarium spp. frequently coexisted in diseased soybean roots. Out of 336 P. sojae–soybean–Fusarium combinations,more than 80% aggravated disease. Different Fusarium species all enhanced P. sojae infection when co-inoculated on soybean. Treatment with Fusarium secreted non-proteinaceous metabolites had an effect equal to the direct pathogen coinoculation. By screening a Fusarium graminearum mutant library, we identified Fusarium promoting factor of Phytophthora sojae infection 1(Fpp1),encoding a zinc alcohol dehydrogenase. Fpp1 is functionally conserved in Fusarium and contributes to metabolite-mediated infection promotion, in which vitamin B6(VB6) produced by Fusarium is key. Transcriptional and functional analyses revealed that Fpp1 regulates two VB6 metabolism genes, and VB6 suppresses expression of soybean disease resistance-related genes. These results reveal that co-infection with Fusarium promotes loss of P. sojae resistance in soybean, information that will inform the sustainable use of diseaseresistant crop varieties and provide new strategies to control soybean root rot.
