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Nonalcoholic fatty liver disease (NAFLD) is the most common chronic liver disease worldwide and macrophage polarization plays an important role in its pathogenesis. However, which molecule regulates macrophage polarization in NAFLD remains unclear. Herein, we showed NAFLD mice exhibited increased 17β-hydroxysteroid dehydrogenase type 7 (17β-HSD7) expression in hepatic macrophages concomitantly with elevated M1 polarization. Single-cell RNA sequencing on hepatic non-parenchymal cells isolated from wild-type littermates and macrophage-17β-HSD7 knockout mice fed with high fat diet (HFD) for 6 weeks revealed that lipid metabolism pathways were notably changed. Furthermore, 17β-HSD7 deficiency in macrophages attenuated HFD-induced hepatic steatosis, insulin resistance and liver injury. Mechanistically, 17β-HSD7 triggered NLRP3 inflammasome activation by increasing free cholesterol content, thereby promoting M1 polarization of macrophages and the secretion of pro-inflammatory cytokines. In addition, to help demonstrate that 17β-HSD7 is a potential drug target for NAFLD, fenretinide was screened out from an FDA-approved drug library based on its 17β-HSD7 dehydrogenase inhibitory activity. Fenretinide dose-dependently abrogated macrophage polarization and pro-inflammatory cytokines production, and subsequently inhibited fat deposition in hepatocytes co-cultured with macrophages. In conclusion, our findings suggest that blockade of 17β-HSD7 signaling by fenretinide would be a drug repurposing strategy for NAFLD treatment.
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Objective To evaluate the inhibitory effect of fenretinide-loaded liposomes(4-HPR-L) on subcutaneous transplanted malignant melanomas in nude mice.Methods A film-ultrasonic dispersion method was used to prepare 4-HPR-L.BALB/c nude mice were subcutaneously inoculated with A375 melanoma cells in the right axillary fossae to establish malignant melanoma-bearing nude mouse models.Ten nude mouse models were randomly and equally divided into 2 groups to be injected with near-infrared fluorescent cell membrane label (DiR) solution or DiR liposomes (DiR-L)at the same concentration in the caudal vein,and a live imaging system was used to observe the distribution of DiR or DiR-L in nude mice at 6,12,24 hours after the injection.Another 30 nude mice were randomly and equally divided into 3 groups to be injected with 5% (mass fraction) glucose solution at a single-dose of 0.2 ml (control group),25 mg/kg 4-HPR solution (4-HPR group)and 25 mg/kg 4-HPR-L solution (4-HPR-L group) respectively on days 8,10,12,14,16,18,20 and 22 after the inoculation with A375 cells.The mouse body weight and tumor volume were dynamically monitored in the above groups after the injection,and the survival situation was observed.The nude mice were sacrificed on day 2 after the final injection,and the heart,liver,spleen,lung,kidney and tumor tissues were resected.These tissues were subjected to hematoxylin-eosin staining and immunohistochemical staining to observe the metastasis of melanoma in mice,and terminal deoxyribonucleotidyl transferase-mediated nick end labelling was performed to detect the apoptosis in tumor cells.One-way analysis of variance and independent-sample t test were used to analyze measurement data.Results The live imaging system showed that DiR-L could be retained in melanoma for a long time,and strong fluorescence of DiR-L could be still observed in the tumors at 24 hours after injections.Quantitative fluorescence analysis revealed that the fluorescence intensity of DiR-L (22.85 ± 1.66) was significantly higher than that of DiR in tumor tissues (8.45 ± 0.97,t =12.957,P < 0.01).Compared with the control group and 4-HPR group,the resected tumor weight on day 2 after the final injection was significantly decreased in the 4-HPR-L group (F =27.055,t =4.768,6.640,respectively,both P < 0.05).Hematoxylineosin staining showed that liver metastasis occurred in 2 nude mice in the 4-HPR-L group,but in all the nude mice in the control group and 4-HPR group.All the nude mice in the 4-HPR-L group died within 76 days after inoculation,and the mice in the control group and 4-HPR group all died within 56 and 59 days respectively after inoculation.There were significant differences in the apoptotic index among the control group (12.14‰ ± 1.33‰),4-HPR group (67.17‰± 15.18‰) and 4-HPR-L group (152.73‰ ± 11.27‰;F =167.588,P < 0.05),and the apoptotic index was significantly higher in the 4-HPR-L group than in the control group and 4-HPR group (t =18.162,11.075 respectively,both P < 0.05).Conclusion 4-HPR-L can effectively inhibit the growth of subcutaneous melanoma in nude mice and metastasis of melanoma cells,and prolong the survival duration of nude mice.
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Objective To assess the effect of fenretinide (4-HPR) on proliferation,apoptosis and migration of B16F10 and A375 melanoma cells,and to evaluate the effect of liposomes and RGD peptidemodified liposomes on its uptake and therapeutic effects.Methods A film-hydration method was used to prepare 4-HPR liposomes (4-HPRL),which were modified with RGD peptide to prepare RGD-4-HPRL,and the concentration,particle size,electric potential,drug loading capacity and encapsulation efficiency were measured for 4-HPRL and RGD-4-HPRL.In vitro cultured B16F10 and A375 cells were divided into several groups:4-HPR group,4-HPRL group and RGD-4-HPRL group treated with Dulbecco's minimum essential medium (DMEM) containing 4-HPR bulk drug,4-HPRL and RGD-4-HPRL respectively at the same concentration of 4-HPR,and control group treated with culture solution at the same volume.After different durations of treatment,cell counting kit-8 (CCK8) assay was performed to evaluate cellular proliferative activity,annexin V/propidium iodide staining to detect apoptosis,and scratch wound healing assay to evaluate the effect of drug treatment on cell migration ability.Then,4-HPR was replaced by coumarin 6 (C6) to prepare C6 liposomes (C6L) and RGD-C6L,and flow cytometry was conducted to evaluate C6 uptake by B16F10 cells.Statistical analysis was carried out with SPSS22.0 software by one-way analysis of variance (ANOVA) for the comparison among several groups and t test for the comparison between two groups.Results The concentration of 4-HPR in the prepared 4-HPRL solution was over 1 300 mg/L.The encapsulation efficiency and drug loading capacity of 4-HPRL were (95.51 ± 1.22)% and (7.27 ± 0.11)% respectively,and those of RGD-4-HPRL were (95.82 ± 0.81)% and (7.14 ± 0.13)% respectively.The particle size distribution of 4-HPRL and RGD-4-HPRL was uniform,and their average particle size was below 100 nm.CCK8 assay showed that 4-HPR could markedly inhibit the proliferative activities of B16F10 and A375 cells.The cell proliferation inhibition rate of 4-HPRL was higher than that of 4-HPR at the same concentration of 4-HPR (P < 0.01),and the inhibition rate of RGD-4-HPRL was higher than that of 4-HPRL (P < 0.01 or P < 0.05) and 4-HPR (P < 0.01).As annexin V/propidium iodide apoptosis assay showed,when the concentration of 4-HPR was 10 mg/L,the total apoptosis rates of B16F10 cells in the control group,4-HPR group,4-HPRL group and RGD-HPRL group were (4.44 ± 0.35)%,(28.33 ± 0.66)%,(46.43 ± 0.77)% and (51.33 ± 0.37)% respectively.When the concentration of 4-HPR was 20 mg/L,the total apoptosis rates of A375 cells in the above 4 groups were (4.97 ± 0.62)%,(16.68 ± 3.81)%,(32.62 ± 1.24)% and (44.85 ± 4.92)% respectively.The apoptosis rates of B16F10 and A375 cells were significantly higher in the 4-HPRL group than in the 4-HPR group (both P < 0.01),and higher in the RGD-4-HPRL group than in the 4-HPRL group (both P < 0.01) and 4-HPR group (both P <0.01).Scratch wound healing assay showed that 4-HPR could inhibit scratch healing and migration of B16F10 and A375 cells,and the inhibitory effects of 4-HPRL and RGD-4-HPRL were distinctly superior to those of 4-HPR bulk drug.C6 uptake assay revealed that the fluorescence intensity of C6 in B16F10 cells in the control group,C6 group,C6L group and RGD-C6L group were 2.15 ± 0.28,8.56 ± 0.36,20.48 ± 0.13 and 22.55 ± 0.07 respectively,and there were significant differences between the 4 groups (F =67 194.186,P < 0.01).Additionally,the fluorescence intensity of C6 was significantly higher in the C6L group and RGD-C6L group than in the C6 group (both P < 0.01),and higher in the RGD-C6L group than in the C6L Group (P < 0.01).Conclusions 4-HPR can inhibit the proliferation and migration of A375 and B16F10 cells,and induce their apoptosis.Liposomes and RGD-targeted liposomes can markedly enhance the effect of 4-HPR on melanoma cells.
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Objective To evaluate the effect of fenretinide (4-HPR)-loaded liposomes (4-HPR-L) on the proliferation,apoptosis and migration of A375 and B16F10 melanoma cells.Methods A film-ultrasonic dispersion method was used to prepare 4-HPR-L.In vitro cultured A375 cells,as well as B16F10 melanoma cells,were divided into the following groups:blank control group treated with fresh culture medium alone,4-HPR groups treated with 4-HPR at concentrations of 0.1,1,15,30,50 and 70 mg/L separately,and 4-HPR-L groups treated with 4-HPR-L at concentrations of 0.1,1,15,30,50 and 70 mg/L separately.Cell counting kit-8 (CCK8) assay was conducted to detect cell proliferation,Hoechst33258 staining and flow cytometry to detect cell apoptosis,wound healing assay to evaluate cell migration ability,and laser scanning confocal microscopy to observe endocytic uptake of the liposomes.Statistical analysis was done by one-way analysis of variance (ANOVA) for intergroup comparison,and a two-sample t-test for comparisons between 2 groups with SPSS 20.0 software.Results Both 4-HPR and 4-HPR-L showed inhibitory effects on the proliferation of A375 and B16F10 melanoma cells.After 48-hour treatment,the survival rates of A375 cells in the 0.1-,1-,15-,30-,50-and 70-mg/L 4-HPR groups were (94.3 ± 1.4)%,(91.7 ± 2.5)%,(84.4 ± 2.5%),(78.8 ± 2.1)%,(59.0 ± 1.1)% and (42.8 ± 2.0)% respectively,and those in the 0.1-,1-,15-,30-,50-and 70-mg/L 4-HPR-L groups were (86.0 ± 0.2)%,(76.5 ± 0.6)%,(60.9 ± 1.5)%,(49.0 ± 0.5)%,(32.9 ± 0.2)% and (18.9 ± 0.5)% respectively.After 48-hour treatment,the survival rates of B16F10 cells in 0.1-,1-,15-,30-,50-and 70-mg/L 4-HPR groups were (95.4 ± 1.9)%,(90.5 ± 2.6)%,(77.0 ± 0.8%),(64.4 ± 3.5)%,(59.1 ± 2.9)% and (49.9 ± 1.9)% respectively,and those in the 0.1-,1-,15-,30-,50-and 70-mg/L 4-HPR-L groups were (88.4 ± 2.0)%,(80.9 ± 3.4)%,(60.9 ± 2.2)%,(51.5 ± 2.9)%,(41.1 ± 1.2)% and (33.5 ± 2.4)% respectively.The survival rates of A375 and B16F10 cells were significantly higher in the 0.1-,1-,15-,30-,50-and 70-mg/L 4-HPR groups than in the 4-HPR-L groups at the same concentrations (A375 cells:t =8.019,8.298,11.455,19.978,33.672,16.314 respectively,all P < 0.01;B16F10 cells:t =3.573,3.153,9.953,4.019,8.097,7.53 respectively,all P < 0.05).Hoechst33258 staining showed that the morphology of the melanoma cells in the control group and 4-HPR groups did not change obviously,but the cells.in the 4-HPR-L groups became smaller,with the cytoplasm concentrated,nuclei dissociated into fragments,and apoptotic bodies formed.Flow cytometry showed that the apoptosis rates of A375 and B16F10 cells were significantly higher in the 4-HPR-L groups than in the 4-HPR groups (all P < 0.01).Cell wound healing assay showed that the inhibitory effect of 4-HPR-L on the migration of cells was stronger than that of 4-HPR,and 4-HPR-L could markedly decrease the degree of wound healing.Laser scanning confocal microscopy showed that C6 liposomes could be rapidly and successfully internalized into both A375 and B16F10 cells.Conclusion The 4-HPR-L can be internalized into A375 and B16F10 cells better than 4-HPR,effectively inhibit the proliferation and migration of A375 and B16F10 cells,and induce the apoptosis of these cells.
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Background:Fenretinide,which is capable of generating reactive oxygen species( ROS ),has emerged as a promising antineoplastic agent based on numerous in vitro and in vivo studies and clinical chemoprevention trials. Preliminary studies showed that fenretinide could induce apoptosis in human hepatocellular carcinoma( HCC)cells in vitro, however,the precise mechanism was not clarified. Aims:To elucidate the effect of ROS on apoptosis of human HCC cells induced by fenretinide and the underlying mechanism. Methods:Human HCC cell line Huh-7 was treated with antioxidant vitamin E,fenretinide or their combination,respectively. ROS in live cells was evaluated by confocal microscopy and flow cytometry;cell viability and apoptosis were assessed by CellTiter-Glo Luminescent Cell Viability Assay Kit and Caspase-Glo3/7 Assay Kit;expression and intracellular localization of nuclear receptor Nur77,as well as expression of stress-induced transcription factor GADD153 were measured by immunofluorescence staining and Western blotting,respectively. Results:Vitamin E pretreatment fully blocked the fenretinide-induced ROS production. In Huh-7 cells pretreated with vitamin E,cell apoptosis induced by fenretinide was significantly reduced(P<0. 05). Furthermore,effect of vitamin E pretreatment was noteworthy on reducing fenretinide-induced GADD153 expression, while no significant impact on fenretinide-induced Nur77 expression and translocation was observed. Conclusions:Elimination of ROS by vitamin E can abrogate the pro-apoptotic effect of fenretinide on Huh-7 cells,which indicates the participation of ROS in fenretinide-induced apoptosis of human HCC cells. Its mechanism might be associated with induction of GADD153 protein expression.
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Objective To explore the synergistic apoptosis-promoting effect of fenretinide (N-[4-hydroxyphenyl] retinamide, 4-HPR, a synthetic retinoic acid) with bortezomib in non-small cell lung cancer (NSCLC) A549 cells. Methods NSCLC A549 cells were treated with 4-HPR and bortezomib alone or in combination at different concentrations (2. 5, 5, 10 and 20 Fmol/L for 4-HPR; 0. 1, 0. 2, 0. 4 and 0. 8 Fmol/L for bortezomib) for 24 h. MTT assay was performed to detect cell growth inhibition. Propidium iodide (PI) staining and flow cytometry were performed to analyze cell cycle. Annexin V-FITC and PI double staining was performed to detect apoptosis. Real-time quantitative PCR and Western blotting analysis were performed to examine the expression of endoplasmic reticulum stress protein CHOP. Results 4-HPR or bortezomib alone inhibited the cell proliferation in a dose-dependent manner, and combined treatment with both 4-HPR and bortezomib showed significantly a stronger anti-proliferative effect. Cell cycle analysis showed that the combination of the two drugs caused cell cycle arrest in the Go/G, phase, with S phase cells significantly reduced. Compared with 4-HPR or bortezomib used alone, combination of both significantly enhanced the apoptosis of A549 cells, accompanied by enhanced expression of CHOP mRNA and protein, an endoplasmic reticulum stress marker. Conclusion Combination of 4-HPR and bortezomib can promote apoptosis in lung cancer A549 cells, which provides an experimental basis for their combination treatment of lung cancer.
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Retinoids play an important role in growth, reproduction and differentiation. Recently, retinoids have been used to both protect and treat from various animal models of carcinogenesis. In this study the effect of N-(4-hydroxyphenyl) retinamide (fenretinide) on viability of human neuroblastoma cell lines were evaluated. For the evaluation of apoptosis of human neuroblastoma cell lines by fenretinide. MTT assay, cytoplasmic DNA fragmentation, TUNEL stain, and Western blot analysis were performed. In MTT assay, fenretinide inhibited the proliferation of CHP134, IMR32 and SH-SY5Y but not in PC12 cells. Cytoplasmic DNA fragmentation was induced by treament of fenretinide (10 micrometer) for 48 h in IMR32 cells. PARP cleavage was detected by Western blot analysis after 16 h of treatment of fenretinide in CHP134, IMR32 and SH-SY5Y. These fenretinide effects on growth inhibition and increased apoptosis followed to the time dependent manner. The fenretinide treatment did not affect the phosphorylation of MAP kinases (ERK, JNK, p38). There was no change of Bcl-x and Bad expression after treatment of fenretinide (1 micrometer) in neroblastoma cell lines. Pretreatement of PD98059, SB203580, LY294002, or genistein also did not affect fenretinide-induced PARP cleavage in neuroblastoma cell lines. From these results, the fenretinide-induced apoptosis is due to the PARP cleavage which occured MAP kinase signal cascades independently.
Subject(s)
Animals , Humans , Apoptosis , Blotting, Western , Carcinogenesis , Cell Line , Cytoplasm , DNA Fragmentation , Fenretinide , Genistein , In Situ Nick-End Labeling , Models, Animal , Neuroblastoma , PC12 Cells , Phosphorylation , Phosphotransferases , Reproduction , RetinoidsABSTRACT
The growth inhibitory effects of four retinoic acid (RA) derivatives, 9-cis RA, 13-cis RA, N-(4-hydroxyphenyl) retinamide (4-HPR), and all-trans retinoic acid (ATRA) were compared. In addition, the effects of various combinations of these four agents were examined on non-small cell lung carcinoma (NSCLC) cell-lines, and on the expressions of retinoic acid receptors (RARs) and retinoid X receptors (RXRs) on these cells. At the clinically achievable concentration of 1 micrometer, only 4-HPR inhibited the growths of H1299 and H460 cells-lines. However, retinoic acid receptor beta(RAR beta) expression was up-regulated on H460 and H1299 cells treated with 1 micrometer of ATRA, 13-cis RA, or 9-cis RA. All NSCLC cell lines showed growth inhibition when exposed sequentially to 1 micrometer ATRA and 0.1 micrometer 4-HPR. In particular, sequential treatment with 1 micrometer ATRA or 13-cis RA and 4-HPR markedly inhibited H1703 cell growth; these cells exhibited no basal RAR beta expression and were refractory to 4-HPR. However, in NSCLC cell lines that expressed RAR beta, the expressional levels of RAR beta were up-regulated by ATRA alone and by sequential treatment with ATRA and 4-HPR. 4-HPR was found to be the most active of the four agents in terms of NSCLC growth-inhibition. Moreover, sequential treatments with ATRA or 13-cis RA followed by 4-HPR were found to have synergistic growth-inhibitory effects and to regulate RAR expression.