Your search keyword '"PF-543"' showing total 22 results

1. Targeting the SphK1/S1P/PFKFB3 axis suppresses hepatocellular carcinoma progression by disrupting glycolytic energy supply that drives tumor angiogenesis

Author

Liu, Xin Tracy, Huang, Yu, Liu, Da, Jiang, Yingxin Celia, Zhao, Min, Chung, Long Hoa, Han, Xingxing Daisy, Zhao, Yinan, Chen, Jinbiao, Coleman, Paul, Ting, Ka Ka, Tran, Collin, Su, Yingying, Dennis, Claude Vincent, Bhatnagar, Atul, Liu, Ken, Don, Anthony Simon, Vadas, Mathew Alexander, Gorrell, Mark Douglas, Zhang, Shubiao, Murray, Michael, Kavurma, Mary Meltem, McCaughan, Geoffrey William, Gamble, Jennifer Ruth, and Qi, Yanfei

Published

2024

2. Synthesis and biological investigation of protein phosphatase 2A‐activating compounds with dimeric tail as non‐small cell lung cancer cell death agents.

Author

Kim, Su Bin, Lee, Taeho, Oh, Yoon Sin, Park, Eun‐Young, and Baek, Dong Jae

Subjects

*NON-small-cell lung carcinoma, *PHOSPHOPROTEIN phosphatases, *BIOSYNTHESIS, *CANCER cells, *CELL death, *TUMOR suppressor proteins

Abstract

FTY720 exerts an anticancer effect through the activation of protein phosphatase 2A (PP2A), which acts as a tumor suppressor, and inhibits SK1 activity. However, FTY720 taken into the body is phosphorylated by endogenous SK2. The structure of FTY720 is well‐studied as a basis for developing SK inhibitors and PP2A activators. We synthesized analogs of PF‐543 with a dimeric tail structure and reported the efficacy of SK1 inhibition. The compounds with this structure had improved anticancer activity and stability compared with PF‐543. To confirm whether the dimeric tail structure could be applied as a PP2A‐active material, we synthesized four types of compounds with a dimeric tail structure and confirmed the anticancer activity and PP2A activation in A549 non‐small cell lung cancer cells. Compounds 2 and 4 were more cytotoxic to A549 cells than RB005, and induced similar levels of cytotoxic and PP2A activation as FTY720. [ABSTRACT FROM AUTHOR]

Published

2023

3. Synthesis of PP2A-Activating PF-543 Derivatives and Investigation of Their Inhibitory Effects on Pancreatic Cancer Cells.

Author

Kim, Su Bin, Oh, Yoon Sin, Kim, Kwang Joon, Cho, Sung Woo, Park, Seung Ki, Baek, Dong Jae, and Park, Eun-Young

Subjects

*PANCREATIC cancer, *SPHINGOSINE kinase, *PHOSPHOPROTEIN phosphatases, *ALIPHATIC compounds, *AROMATIC compounds

Abstract

Sphingosine kinase (SK) is involved in the growth of cells, including cancer cells. However, which of its two isotypes—SK1 and SK2—is more favorable for cancer growth remains unclear. Although PF-543 strongly and selectively inhibits SK1, its anticancer effect is not high, and the underlying reason remains difficult to explain. We previously determined that the tail group of PF-543 is responsible for its low metabolic stability (MS). In this study, compounds containing aromatic or aliphatic tails in the triazole group were synthesized, and changes in the SK-inhibitory effect and anticancer activity of PF-543 were assessed using pancreatic cancer cells. The compounds with aliphatic tails showed high inhibitory effects on pancreatic cancer cells but slightly lower selectivity for SK1. A compound with an introduced aliphatic tail activated protein phosphatase 2A (PP2A), showing an effect similar to that of FTY720. Molecular docking analysis revealed that the PP2A-binding form of this newly synthesized compound was different from that noted in the case of FTY720. This compound also improved the MS of PF-543. These results indicate that the tail structure of PF-543 influences MS. [ABSTRACT FROM AUTHOR]

Published

2022

4. Ceramide Kinase Inhibition Blocks IGF-1-Mediated Survival of Otic Neurosensory Progenitors by Impairing AKT Phosphorylation

Author

Yolanda León, Marta Magariños, and Isabel Varela-Nieto

Subjects

ceramide metabolism enzymes, development, sphingolipids, NVP-231, otic progenitors, PF-543, Biology (General), QH301-705.5

Abstract

Sphingolipids are bioactive lipid components of cell membranes with important signal transduction functions in health and disease. Ceramide is the central building block for sphingolipid biosynthesis and is processed to form structurally and functionally distinct sphingolipids. Ceramide can be phosphorylated by ceramide kinase (CERK) to generate ceramide-1-phosphate, a cytoprotective signaling molecule that has been widely studied in multiple tissues and organs, including the developing otocyst. However, little is known about ceramide kinase regulation during inner ear development. Using chicken otocysts, we show that genes for CERK and other enzymes of ceramide metabolism are expressed during the early stages of inner ear development and that CERK is developmentally regulated at the otic vesicle stage. To explore its role in inner ear morphogenesis, we blocked CERK activity in organotypic cultures of otic vesicles with a specific inhibitor. Inhibition of CERK activity impaired proliferation and promoted apoptosis of epithelial otic progenitors. CERK inhibition also compromised neurogenesis of the acoustic-vestibular ganglion. Insulin-like growth factor-1 (IGF-1) is a key factor for proliferation, survival and differentiation in the chicken otocyst. CERK inhibition decreased IGF-1-induced AKT phosphorylation and blocked IGF-1-induced cell survival. Overall, our data suggest that CERK is activated as a central element in the network of anti-apoptotic pro-survival pathways elicited by IGF-1 during early inner ear development.

Published

2021

5. 鞘鞍醇激酶-1抑制剂 PF-543 改善1型糖尿病心肌纤维化的实验研究.

Author

史承勇, 刁繁荣, 蒋颖人, 宋晓伟, 唐文栋, 郭显, and 赵仙先

Abstract

Objective: This study was aimed to explore the effects of PF-543, a specific inhibitor of sphingosine kinase-1(SphK1),on cardiac fibrosis in type 1 diabetes mice. Methods: Sixty eight-week-old C57 BL6 J mice were randomly divided into control group(n=15), control+PF-543 group(n=15), type 1 diabetes mellitus(T1 DM)group(n=15), and T1 DM+PF-543 group(n=15). T1 DM were induced by intraperitoneally injected with streptozocin(STZ, 150 mg/kg). These control and diabetic mice were randomly received with vehicle or PF-543(10 mg/kg/d) treatment for 16 weeks. By the end of the study, cardiac sphingosine 1 phosphate(S1 P) levels were analyzed by enzyme linked immunosorbent assay(ELISA). Cardiac function was evaluated by echocardiography. Myocardial fibrosis was evaluated by masson trichrome staining. The cardiac expression levels of transforming growth factor-β1(TGF-β1), Collagen I(Col I)and Collagen III(Col III) were determined by Western blot. Results: Compared with T1 DM group, cardiac S1 P levels were significantly reduced in T1 DM+PF-543 group(P<0.05). PF-543 significantly increased the left ventricular ejection fractions(LVEF) in diabetic mice(65.7 ±3.3% vs 54.4 ±3.4%, P<0.05). PF-543 alsodecreased the left ventricular end-diastolic diameters(LVEDD) in diabetic mice(3.81±0.21 mm vs 4.52±0.20 mm P<0.05). Moreover, PF-543 treatment reduced interstitial fibrosis in diabetic mice(7.13±0.32% vs10.21±0.41%, P<0.05). the cardiac expression of TGF-β1, Col I and Col III were significantly reduced by PF-543 treatment in type 1 diabetic mice(all P<0.05). Conclusion: PF-543 treatment significantly reduces cardiac S1 P levels and ameliorates myocardial fibrosis by decreasing TGF-β1 and collagen expression in type 1 diabetic mice. [ABSTRACT FROM AUTHOR]

Published

2019

6. Verification of the Necessity of the Tolyl Group of PF-543 for Sphingosine Kinase 1 Inhibitory Activity

Author

Su Bin Kim, Taeho Lee, Hong Seop Moon, Sung Hwan Ki, Yoon Sin Oh, Joo-Youn Lee, Sang-Bum Kim, Jeong-Eun Park, Yongseok Kwon, Sanghee Kim, Dong Jae Baek, and Eun-Young Park

Subjects

sphingosine kinase, PF-543, BODIPY, anticancer, inhibitor, derivative, Organic chemistry, QD241-441

Abstract

PF-543, the most potent sphingosine kinase (SK) inhibitor, does not demonstrate effective anticancer activity in some cancer cells, unlike other known SK1 inhibitors. PF-543 has a non-lipid structure with a unique toluene backbone; however, the importance of this structure remains unclear. Therefore, the purpose of this study was to investigate changes in SK inhibitory and anticancer activities and to explore the role of the tolyl group structure of PF-543 through various modifications. We transformed the methyl group of PF-543 into hydrogen, fluorine, and hydroxy. PF-543 derivatives in which the methyl group was substituted by hydrogen and fluorine (compound 5) demonstrated SK1 inhibitory and anticancer activities similar to PF-543. Moreover, we performed molecular modeling studies of PF-543 and compound 5. To assess the metabolic stability of PF-543 and compound 5, we determined their degree of degradation using the liver microsomes of four different animal species (human, dog, rat, and mouse). However, both PF-543 and compound 5 showed poor microsomal stability. Therefore, for the medical applications of PF-543, the structural modifications of its other parts may be necessary. Our results provide important information for the design of additional PF-543 analogs.

Published

2020

7. Novel Chemotherapeutic Drugs in Sphingolipid Cancer Research

Author

Canals, Daniel, Hannun, Yusuf A., Gulbins, Erich, editor, and Petrache, Irina, editor

Published

2013

8. Synthesis of dansyl labeled sphingosine kinase 1 inhibitor.

Author

Park, Eun-Young, Lee, Taeho, Oh, Yoon Sin, Lee, Joo-Youn, Shrestha, Jitendra, Hong, Seung Woo, Jin, Yun Ji, Jo, GeunHyung, Kim, Sanghee, Hwang, Gil Tae, Han, Dong-Sul, and Baek, Dong Jae

Subjects

*SPHINGOSINE, *MULTIPLE sclerosis, *FLUORESCENCE, *COLON cancer, *MYOCARDIAL infarction

Abstract

PF-543 is a non-sphingosine analogue with inhibitory effect against SK1, based on a Ki of 4.3 nM and 130-fold selectivity for SK1 over SK2. Since the development of PF-543, animal studies demonstrated its valuable role in multiple sclerosis, myocardial infarction, and colorectal cancer. We synthesized labeled PF-543 for biochemical studies involving SK1. Overall, the 8-step synthetic route used 3,5-dimethylphenol as the starting material. A docking study of SK1 and SK1 inhibitory activity confirmed the structural similarity between the synthetic dansyl-PF-543 and PF-543. We also provide fluorescence spectra of dansyl-PF-543. [ABSTRACT FROM AUTHOR]

Published

2018

9. Therapeutic potential of the sphingosine kinase 1 inhibitor, PF-543.

Author

Yi, Xueliang, Tang, Xuemei, Li, Tianlong, Chen, Lin, He, Hongli, Wu, Xiaoxiao, Xiang, Chunlin, Cao, Min, Wang, Zixiang, Wang, Yi, Wang, Yiping, and Huang, Xiaobo

Subjects

*SPHINGOSINE kinase, *CANCER cell growth

Abstract

PF-543 is a sphingosine kinase 1（SPHK1）inhibitor developed by Pfizer and is currently considered the most potent selective SPHK1 inhibitor. SPHK1 catalyses the production of sphingosine 1-phosphate (S1P) from sphingosine. It is the rate-limiting enzyme of S1P production, and there is substantial evidence to support a very important role for sphingosine kinase in health and disease. This review is the first to summarize the role and mechanisms of PF-543 as an SPHK1 inhibitor in anticancer, antifibrotic, and anti-inflammatory processes, providing new therapeutic leads and ideas for future research and clinical trials. [Display omitted] • This article is the first comprehensive review on PF-543. • PF-543 is a drug with therapeutic potential. • PF-543 exerts various biological functions, such as Inhibits cancer cell growth, antifibrotic and anti-inflammatory. [ABSTRACT FROM AUTHOR]

Published

2023

10. Targeting colorectal cancer cells by a novel sphingosine kinase 1 inhibitor PF-543.

Author

Ju, TongFa, Gao, DaQuan, and Fang, Zheng-yu

Subjects

*COLON cancer diagnosis, *SPHINGOSINE, *CYCLOPHILINS, *LACTATE dehydrogenase, *CYCLOSPORINE

Abstract

In this study, we showed that PF-543, a novel sphingosine kinase 1 (SphK1) inhibitor, exerted potent anti-proliferative and cytotoxic effects against a panel of established (HCT-116, HT-29 and DLD-1) and primary human colorectal cancer (CRC) cells. Its sensitivity was negatively associated with SphK1 expression level in the CRC cells. Surprisingly, PF-543 mainly induced programmed necrosis, but not apoptosis, in the CRC cells. CRC cell necrotic death was detected by lactate dehydrogenase (LDH) release, mitochondrial membrane potential (MMP) collapse and mitochondrial P53-cyclophilin-D (Cyp-D) complexation. Correspondingly, the necrosis inhibitor necrostatin-1 largely attenuated PF-543-induced cytotoxicity against CRC cells. Meanwhile, the Cyp-D inhibitors (sanglifehrin A and cyclosporin A), or shRNA-mediated knockdown of Cyp-D, remarkably alleviated PF-543-induced CRC cell necrotic death. Reversely, over-expression of wild-type Cyp-D in HCT-116 cells significantly increased PF-543's sensitivity. In vivo , PF-543 intravenous injection significantly suppressed HCT-116 xenograft growth in severe combined immunodeficient (SCID) mice, whiling remarkably improving the mice survival. The in vivo activity by PF-543 was largely attenuated when combined with the Cyp-D inhibitor cyclosporin A. Collectively, our results demonstrate that PF-543 exerts potent anti-CRC activity in vitro and in vivo . Mitochondrial programmed necrosis pathway is likely the key mechanism responsible for PF-543's actions in CRC cells. [ABSTRACT FROM AUTHOR]

Published

2016

11. A Dansyl-Modified Sphingosine Kinase Inhibitor DPF-543 Enhanced De Novo Ceramide Generation

Author

Shokhid Gulyamov, Maftuna Shamshiddinova, Seo Hyeon Jung, Dong Jae Baek, Yong-Moon Lee, and Hee Jung Kim

Subjects

Pyrrolidines, Swine, Sphingosine kinase, SPT, Substrate Specificity, chemistry.chemical_compound, SPHK, Sphingosine, Sulfones, Biology (General), Enzyme Inhibitors, Ceramide synthase, ceramide synthases, Spectroscopy, Dansyl Compounds, General Medicine, PF-543, Computer Science Applications, Cell biology, Chemistry, Phosphotransferases (Alcohol Group Acceptor), lipids (amino acids, peptides, and proteins), Acid sphingomyelinase, medicine.drug, analytical_chemistry, Ceramide, QH301-705.5, Cell Survival, Ceramides, Catalysis, Article, Cell Line, Inorganic Chemistry, medicine, Animals, Humans, ceramide, Physical and Theoretical Chemistry, LC-MS/MS, Molecular Biology, QD1-999, Methanol, Organic Chemistry, Serine C-palmitoyltransferase, Sphingolipid, De novo synthesis, carbohydrates (lipids), chemistry, sphingolipid, metabolism

Abstract

Sphingosine-1-phosphate (S1P) synthesized by sphingosine kinase (SPHK) is a signaling molecule, involved in cell proliferation, growth, differentiation, and survival. Indeed, a sharp increase of S1P was linked to the pathological outcome with inflammation, cancer metastasis or angiogenesis etc. In this regard, the SPHK/S1P axis regulation has been a specific issue in anticancer strategy to turn accumulated sphingosine (SPN) into cytotoxic ceramides (Cers). For these purposes, there have been numerous chemicals synthesized for SPHK inhibition. In this study, we investigated the comparative efficiency of dansylated PF-543 (DPF-543) on the Cers synthesis along with PF-543. DPF-543 deserved attention in strong cytotoxicity, due to the cytotoxic Cers accumulation by ceramide synthase (CerSs). DPF-543 exhibited dual actions on Cers synthesis by enhance the serine palmitoyltransferase (SPT) activity, and by inhibiting SPHKs which eventually induced an unusual environment of the high amount of 3-ketosphinganine and sphinganine (SPA). SPA in turn was consumed to synthesize Cers via de novo pathway. Interestingly, PF-543 increased only the SPN level, but not for SPA. In addition, DPF-543 mildly activates acid sphingomyelinase (aSMase) that contributes a partial increase on Cers. Collectively, a dansyl-modified DPF-543 relatively en-hanced Cers accumulation via de novo pathway which was not observed in PF-543. Our results demonstrated that the structural modification on SPHK inhibitors is still an attractive anticancer strategy by regulating sphingolipid metabolism.

Published

2021

12. The Role of JPT2 and the Two Pore Channels in NAADP-mediated Calcium Signaling in Tcells

Author

Borges E Soares, Giselle Amanda

Subjects

Pharmacy Sciences, Molecular Biology, Calcium signaling, T cells, CD4 T cells, JPT2, accessory proteins, flow cytometry, intracellular signaling, NAADP, calcium signaling pathway, sphingosine kinase, PF-543, DO.11.10 cells, hybridomas, cell culture

Abstract

CD4+ T cells play a pivotal role in generating and regulating effective immune responses against invading pathogens by orchestrating intracellular calcium (Ca2+) signaling through the synthesis of Ca2+ signaling secondary messengers such as nicotinic acid adenine dinucleotide phosphate (NAADP), cyclic adenosine 5-diphosphate ribose (cADPR), and inositol 1,4,5 triphosphate (IP3). These signaling events significantly impact downstream immune responses. In contrast, in the tumor microenvironment, upregulation of Ca2+ signals are associated with cancer cell proliferation, malignancy, and immune response suppression. NAADP being the most potent secondary messenger, its signaling pathway remains elusive and controversial. NAADP is believed to bind to accessory proteins such as Jupiter microtubule-associated homolog 2 (JPT2) and an Sm-like proteinLsm 12. These are thought to influence the poorly characterized 'two-pore channels' (TPCs) in the endo-lysosomal compartments of cells. Notably, previous studies using PF-543, a sphingosine kinase-1 (SphK-1) inhibitor, effectively diminished NAADP-mediated Ca2+ signals in sea urchin eggs, and U2OS cells, warranting further investigation of the involvement of accessory proteins, TPCs, and SphK-1 in this pathway. To shed light on JPT2's role in influencing T cell function, we conducted experiments to investigate its impact on T cell activation events. Our findings indicate that the knockdown of JPT2 by siRNA did not affect early T cell activation events, such as the phosphorylation of tyrosine kinases LCK and ZAP-70, but instead influenced Ca2+ release and later events, such as the phosphorylation of the critical transcription factor NF- κB, a process which is well-known to be Ca2+ dependent and responsible for T cell proliferation and differentiation. Additionally, our investigation into a library of PF-543 analogs on murine T cells and sea urchin eggs revealed a correlation between SphK-1 inhibition andCa2+ release. Our results suggest that JPT2 in mouse cells may be post-translationally modified.Overall, our research, advances the understanding of the complex NAADP-mediated Ca2+ signaling pathway, sheds light on the involvement of JPT2 and SphK-1 in regulating T cell function, and opens promising avenues for the development of targeted therapeutic strategies to modulate Ca2+ signaling in both immune responses and cancer treatment.

Published

2023

13. Ceramide kinase inhibition blocks IGF-1-mediated survival of otic neurosensory progenitors by impairing AKT phosphorylation

Author

Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), European Commission, León, Yolanda [0000-0002-4536-8373], Magariños, Marta [0000-0003-4592-9377], Varela-Nieto, Isabel [0000-0003-3077-0500], León, Yolanda, Magariños, Marta, Varela-Nieto, Isabel, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), European Commission, León, Yolanda [0000-0002-4536-8373], Magariños, Marta [0000-0003-4592-9377], Varela-Nieto, Isabel [0000-0003-3077-0500], León, Yolanda, Magariños, Marta, and Varela-Nieto, Isabel

Abstract

Sphingolipids are bioactive lipid components of cell membranes with important signal transduction functions in health and disease. Ceramide is the central building block for sphingolipid biosynthesis and is processed to form structurally and functionally distinct sphingolipids. Ceramide can be phosphorylated by ceramide kinase (CERK) to generate ceramide-1-phosphate, a cytoprotective signaling molecule that has been widely studied in multiple tissues and organs, including the developing otocyst. However, little is known about ceramide kinase regulation during inner ear development. Using chicken otocysts, we show that genes for CERK and other enzymes of ceramide metabolism are expressed during the early stages of inner ear development and that CERK is developmentally regulated at the otic vesicle stage. To explore its role in inner ear morphogenesis, we blocked CERK activity in organotypic cultures of otic vesicles with a specific inhibitor. Inhibition of CERK activity impaired proliferation and promoted apoptosis of epithelial otic progenitors. CERK inhibition also compromised neurogenesis of the acoustic-vestibular ganglion. Insulin-like growth factor-1 (IGF-1) is a key factor for proliferation, survival and differentiation in the chicken otocyst. CERK inhibition decreased IGF-1-induced AKT phosphorylation and blocked IGF-1-induced cell survival. Overall, our data suggest that CERK is activated as a central element in the network of anti-apoptotic pro-survival pathways elicited by IGF-1 during early inner ear development.

Published

2021

14. Verification of the Necessity of the Tolyl Group of PF-543 for Sphingosine Kinase 1 Inhibitory Activity

Author

Dong Jae Baek, Jeong-Eun Park, Sung Hwan Ki, Tae-Ho Lee, Joo-Youn Lee, Hong Seop Moon, Sanghee Kim, Yongseok Kwon, Eun Young Park, Yoon Sin Oh, Su Bin Kim, and Sangbum Kim

Subjects

Boron Compounds, Pyrrolidines, Molecular model, Stereochemistry, Sphingosine kinase, Pharmaceutical Science, Inhibitory postsynaptic potential, anticancer, Article, Analytical Chemistry, lcsh:QD241-441, Mice, Structure-Activity Relationship, 03 medical and health sciences, chemistry.chemical_compound, Dogs, 0302 clinical medicine, lcsh:Organic chemistry, BODIPY, Drug Discovery, Animals, Humans, derivative, Sulfones, Physical and Theoretical Chemistry, 030304 developmental biology, 0303 health sciences, biology, Chemistry, Methanol, Organic Chemistry, PF-543, Rats, inhibitor, Phosphotransferases (Alcohol Group Acceptor), Sphingosine kinase 1, Chemistry (miscellaneous), sphingosine kinase, 030220 oncology & carcinogenesis, Cancer cell, Microsomes, Liver, biology.protein, Microsome, Molecular Medicine, Methyl group

Abstract

PF-543, the most potent sphingosine kinase (SK) inhibitor, does not demonstrate effective anticancer activity in some cancer cells, unlike other known SK1 inhibitors. PF-543 has a non-lipid structure with a unique toluene backbone, however, the importance of this structure remains unclear. Therefore, the purpose of this study was to investigate changes in SK inhibitory and anticancer activities and to explore the role of the tolyl group structure of PF-543 through various modifications. We transformed the methyl group of PF-543 into hydrogen, fluorine, and hydroxy. PF-543 derivatives in which the methyl group was substituted by hydrogen and fluorine (compound 5) demonstrated SK1 inhibitory and anticancer activities similar to PF-543. Moreover, we performed molecular modeling studies of PF-543 and compound 5. To assess the metabolic stability of PF-543 and compound 5, we determined their degree of degradation using the liver microsomes of four different animal species (human, dog, rat, and mouse). However, both PF-543 and compound 5 showed poor microsomal stability. Therefore, for the medical applications of PF-543, the structural modifications of its other parts may be necessary. Our results provide important information for the design of additional PF-543 analogs.

Published

2020

15. A Dansyl-Modified Sphingosine Kinase Inhibitor DPF-543 Enhanced De Novo Ceramide Generation.

Author

Shamshiddinova, Maftuna, Gulyamov, Shokhid, Kim, Hee-Jung, Jung, Seo-Hyeon, Baek, Dong-Jae, and Lee, Yong-Moon

Subjects

SPHINGOSINE kinase, CERAMIDES, KINASE inhibitors, METASTASIS, SPHINGOMYELINASE

Abstract

Sphingosine-1-phosphate (S1P) synthesized by sphingosine kinase (SPHK) is a signaling molecule, involved in cell proliferation, growth, differentiation, and survival. Indeed, a sharp increase of S1P is linked to a pathological outcome with inflammation, cancer metastasis, or angiogenesis, etc. In this regard, SPHK/S1P axis regulation has been a specific issue in the anticancer strategy to turn accumulated sphingosine (SPN) into cytotoxic ceramides (Cers). For these purposes, there have been numerous chemicals synthesized for SPHK inhibition. In this study, we investigated the comparative efficiency of dansylated PF-543 (DPF-543) on the Cers synthesis along with PF-543. DPF-543 deserved attention in strong cytotoxicity, due to the cytotoxic Cers accumulation by ceramide synthase (CerSs). DPF-543 exhibited dual actions on Cers synthesis by enhancing serine palmitoyltransferase (SPT) activity, and by inhibiting SPHKs, which eventually induced an unusual environment with a high amount of 3-ketosphinganine and sphinganine (SPA). SPA in turn was consumed to synthesize Cers via de novo pathway. Interestingly, PF-543 increased only the SPN level, but not for SPA. In addition, DPF-543 mildly activates acid sphingomyelinase (aSMase), which contributes a partial increase in Cers. Collectively, a dansyl-modified DPF-543 relatively enhanced Cers accumulation via de novo pathway which was not observed in PF-543. Our results demonstrated that the structural modification on SPHK inhibitors is still an attractive anticancer strategy by regulating sphingolipid metabolism. [ABSTRACT FROM AUTHOR]

Published

2021

16. Synthesis and Biological Evaluation of BODIPY-PF-543

Author

Gil Tae Hwang, Sanghee Kim, Eun Young Park, Yongseok Kwon, Hong Seop Moon, Seon Woong Kim, Tae-Ho Lee, Jitendra Shrestha, Yoon Sin Oh, Dong Jae Baek, and Seung Woo Hong

Subjects

Boron Compounds, Pyrrolidines, Sphingosine kinase, Pharmaceutical Science, Chemistry Techniques, Synthetic, confocal microscopy, Article, Analytical Chemistry, law.invention, Structure-Activity Relationship, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, BODIPY, Confocal microscopy, law, Drug Discovery, Sulfones, Enzyme Inhibitors, Physical and Theoretical Chemistry, 030304 developmental biology, 0303 health sciences, Molecular Structure, Sphingosine, Methanol, Spectrum Analysis, Organic Chemistry, PF-543, Fluorescence, In vitro, Cell biology, inhibitor, Phosphotransferases (Alcohol Group Acceptor), Cytosol, chemistry, sphingosine kinase, Chemistry (miscellaneous), 030220 oncology & carcinogenesis, Cancer cell, Molecular Medicine

Abstract

Sphingosine-1-phosphate (S1P) regulates the proliferation of various cells and promotes the growth of cancer cells. Sphingosine kinase (SK), which transforms sphingosine into S1P, has two isotypes: SK1 and SK2. To date, both isotypes are known to be involved in the proliferation of cancer cells. PF-543, an SK1 inhibitor developed by Pfizer, strongly inhibits SK1. However, despite its strong SK1 inhibitory effect, PF-543 shows low anticancer activity in vitro. Therefore, additional biological evidence on the anticancer activity of SK1 inhibitor is required. The present study aimed to investigate the intracellular localization of PF-543 and identify its association with anticancer activity by introducing a fluoroprobe into PF-543. Boron&ndash, dipyrromethene (BODIPY)-introduced PF-543 has a similar SK1 inhibitory effect as PF-543. These results indicate that the introduction of BODIPY does not significantly affect the inhibitory effect of SK1. In confocal microscopy after BODIPY-PF-543 treatment, the compound was mainly located in the cytosol of the cells. This study demonstrated the possibility of introducing fluorescent material into an SK inhibitor and designing a synthesized compound that is permeable to cells while maintaining the SK inhibitory effect.

Published

2019

17. Lipophilic tail modifications of 2-(hydroxymethyl)pyrrolidine scaffold reveal dual sphingosine kinase 1 and 2 inhibitors.

Author

Li, Hao, Sibley, Christopher D., Kharel, Yugesh, Huang, Tao, Brown, Anne M., Wonilowicz, Laura G., Bevan, David R., Lynch, Kevin R., and Santos, Webster L.

Subjects

*SPHINGOSINE kinase, *HYDROXYMETHYL compounds, *PYRROLIDINE, *DIFFUSE large B-cell lymphomas, *STRUCTURE-activity relationships, *DITHIOCARBAMATES

Abstract

The sphingosine 1-phosphate (S1P) signaling pathway is an attractive target for pharmacological manipulation due to its involvement in cancer progression and immune cell chemotaxis. The synthesis of S1P is catalyzed by the action of sphingosine kinase 1 or 2 (SphK1 or SphK2) on sphingosine and ATP. While potent and selective inhibitors of SphK1 or SphK2 have been reported, development of potent dual SphK1/SphK2 inhibitors are still needed. Towards this end, we report the structure–activity relationship profiling of 2-(hydroxymethyl)pyrrolidine-based inhibitors with 22d being the most potent dual SphK1/SphK2 inhibitor (SphK1 K i = 0.679 μM, SphK2 K i = 0.951 μM) reported in this series. 22d inhibited the growth of engineered Saccharomyces cerevisiae and decreased S1P levels in histiocytic lymphoma myeloid cell line (U937 cells), demonstrating inhibition of SphK1 and 2 in vitro. Molecular modeling studies of 22d docked inside the Sph binding pocket of both SphK1 and SphK2 indicate essential hydrogen bond between the 2-(hydroxymethyl)pyrrolidine head to interact with aspartic acid and serine residues near the ATP binding pocket, which provide the basis for dual inhibition. In addition, the dodecyl tail adopts a "J-shape" conformation found in crystal structure of sphingosine bound to SphK1. Collectively, these studies provide insight into the intermolecular interactions in the SphK1 and 2 active sites to achieve maximal dual inhibitory activity. [ABSTRACT FROM AUTHOR]

Published

2021

18. Verification of the Necessity of the Tolyl Group of PF-543 for Sphingosine Kinase 1 Inhibitory Activity.

Author

Kim, Su Bin, Lee, Taeho, Moon, Hong Seop, Ki, Sung Hwan, Oh, Yoon Sin, Lee, Joo-Youn, Kim, Sang-Bum, Park, Jeong-Eun, Kwon, Yongseok, Kim, Sanghee, Baek, Dong Jae, Park, Eun-Young, Muñoz-Torrero, Diego, and De Pascual-Teresa, Beatriz

Subjects

SPHINGOSINE kinase, METHYL groups, ANIMAL species, LIVER microsomes, SPRAGUE Dawley rats, MOLECULAR models

Abstract

PF-543, the most potent sphingosine kinase (SK) inhibitor, does not demonstrate effective anticancer activity in some cancer cells, unlike other known SK1 inhibitors. PF-543 has a non-lipid structure with a unique toluene backbone; however, the importance of this structure remains unclear. Therefore, the purpose of this study was to investigate changes in SK inhibitory and anticancer activities and to explore the role of the tolyl group structure of PF-543 through various modifications. We transformed the methyl group of PF-543 into hydrogen, fluorine, and hydroxy. PF-543 derivatives in which the methyl group was substituted by hydrogen and fluorine (compound 5) demonstrated SK1 inhibitory and anticancer activities similar to PF-543. Moreover, we performed molecular modeling studies of PF-543 and compound 5. To assess the metabolic stability of PF-543 and compound 5, we determined their degree of degradation using the liver microsomes of four different animal species (human, dog, rat, and mouse). However, both PF-543 and compound 5 showed poor microsomal stability. Therefore, for the medical applications of PF-543, the structural modifications of its other parts may be necessary. Our results provide important information for the design of additional PF-543 analogs. [ABSTRACT FROM AUTHOR]

Published

2020

19. Synthesis and Biological Evaluation of BODIPY-PF-543.

Author

Shrestha, Jitendra, Hwang, Gil Tae, Lee, Taeho, Kim, Seon Woong, Oh, Yoon Sin, Kwon, Yongseok, Hong, Seung Woo, Kim, Sanghee, Seop Moon, Hong, Baek, Dong Jae, and Park, Eun-Young

Subjects

BIOSYNTHESIS, SPHINGOSINE kinase, CANCER cell growth, CONFOCAL microscopy, CELL proliferation

Abstract

Sphingosine-1-phosphate (S1P) regulates the proliferation of various cells and promotes the growth of cancer cells. Sphingosine kinase (SK), which transforms sphingosine into S1P, has two isotypes: SK1 and SK2. To date, both isotypes are known to be involved in the proliferation of cancer cells. PF-543, an SK1 inhibitor developed by Pfizer, strongly inhibits SK1. However, despite its strong SK1 inhibitory effect, PF-543 shows low anticancer activity in vitro. Therefore, additional biological evidence on the anticancer activity of SK1 inhibitor is required. The present study aimed to investigate the intracellular localization of PF-543 and identify its association with anticancer activity by introducing a fluoroprobe into PF-543. Boron–dipyrromethene (BODIPY)-introduced PF-543 has a similar SK1 inhibitory effect as PF-543. These results indicate that the introduction of BODIPY does not significantly affect the inhibitory effect of SK1. In confocal microscopy after BODIPY-PF-543 treatment, the compound was mainly located in the cytosol of the cells. This study demonstrated the possibility of introducing fluorescent material into an SK inhibitor and designing a synthesized compound that is permeable to cells while maintaining the SK inhibitory effect. [ABSTRACT FROM AUTHOR]

Published

2019

20. Synthesis and Biological Evaluation of PF-543 Derivative Containing Aliphatic Side Chain.

Author

Kim SW, Lee T, Oh YS, Shin SM, Lee JY, Kim S, Baek DJ, and Park EY

Subjects

Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Binding Sites, Catalytic Domain, Cell Line, Tumor, Cell Survival drug effects, Humans, Inhibitory Concentration 50, Methanol, Molecular Docking Simulation, Phosphotransferases (Alcohol Group Acceptor) antagonists & inhibitors, Phosphotransferases (Alcohol Group Acceptor) metabolism, Pyrrolidines chemical synthesis, Pyrrolidines pharmacology, Structure-Activity Relationship, Sulfones chemical synthesis, Sulfones pharmacology, Antineoplastic Agents chemical synthesis, Pyrrolidines chemistry, Sulfones chemistry

Abstract

The PF-543 is known as a potent and selective inhibitor of sphingosine kinase (SK) 1 amongst all the SK inhibitors known to date. In a recently reported study by Pfizer on the synthesis of PF-543 derivatives and the SK inhibitory effects, the introduction of propyl moiety into sulfonyl group of PF-543 in the case of 26b revealed an excellent result of 1.7 nM of IC 50 of SK1, suggesting the potential substitution of chain structure for benzenesulfonyl structure. In the present work, we aimed for identification of antitumor activity and inhibitory effects of PF-543 derivative containing aliphatic long chain (similar to known SK inhibitors) on SK1. The synthesized compound 2 exhibited an inhibitory effect on SK1 in a manner similar to that of PF-543; the PF-543 derivative manifested similar antitumor activity on HT29, HCT116 (colorectal cancer cell line), and AGS (gastric cancer cell line) cells. Also, from the docking study conducted with PF-543 and compound 2, it was apparent that the aliphatic chain in compound 2 could probably replace benzenesulfonyl structure of PF-543.

Published

2019

21. Building a better sphingosine kinase-1 inhibitor.

Author

LYNCH, Kevin R.

Subjects

*SPHINGOSINE kinase, *PHOSPHOTRANSFERASES, *LYMPHOCYTES, *LEUCOCYTES, *MONONUCLEAR leukocytes

Abstract

Sphingosine 1-phosphate (S1P) is currently one of the most intensely studied lipid mediators. Interest in S1P has been propelled by the development of fingolimod, an S1P receptor agonist prodrug, which revealed both a theretofore unsuspected role of S1P in lymphocyte trafficking and that such modulation of the immune system achieves therapeutic benefit in multiple sclerosis patients. S1P is synthesized from sphingosine by two SphKs (sphingosine kinases) (SphK1 and SphK2). Manipulation of SphK levels using molecular biology and mouse genetic tools has implicated these enzymes, particularly SphK1, in a variety of pathological processes such as fibrosis, inflammation and cancer progression. The results of such studies have spurred interest in SphK1 as a drug target. In this issue of the Biochemical Journal, Schnute et al. describe a small molecule inhibitor of SphK1 that is both potent and selective. Such chemical tools are essential to learn whether targeting S1P signalling at the level of synthesis is a viable therapeutic strategy. [ABSTRACT FROM AUTHOR]

Published

2012

22. Crystal Structure of Sphingosine Kinase 1 with PF-543.

Author

Wang J, Knapp S, Pyne NJ, Pyne S, and Elkins JM

Abstract

The most potent inhibitor of Sphingosine Kinase 1 (SPHK1) so far identified is PF-543. The crystal structure of SPHK1 in complex with inhibitor PF-543 to 1.8 Å resolution reveals the inhibitor bound in a bent conformation analogous to that expected of a bound sphingosine substrate but with a rotated head group. The structural data presented will aid in the design of SPHK1 and SPHK2 inhibitors with improved properties.

Published

2014