Your search keyword '"M, Tsuda"' showing total 52 results

1. Synthesis and Optimization of Ethylenediamine-Based Zwitterion on Polymer Side Chain for Recognizing Narrow Tumorous pH Windows.

Author

Toyoda M, Miura Y, Kobayashi M, Tsuda M, Nomoto T, Honda Y, Nakamura H, Takemoto H, and Nishiyama N

Subjects

Hydrogen-Ion Concentration, Humans, Neoplasms, Nanomedicine methods, Ethylenediamines chemistry, Polymers chemistry

Abstract

Polyzwitterions that show the alternation of net charge in response to external stimuli have attracted great attention as a new class of surface-polymers on nanomedicines. However, the correlation between their detailed molecular structures and expression of antifouling properties under physiological condition remain controversial. Herein, we synthesized a series of ethylenediamine-based polyzwitterions with carboxy groups/sulfonic groups and ethylene, propylene, and butylene spacers as potential surface-polymers for nanomedicines, allowing sensitive recognition of tumor acidic environments (pH = 6.5-5.5). Then, we evaluated their structure-based characteristics, including pH-dependent cellular uptakes and intracellular distributions. Additionally, the role of conformation stability, i.e. , Gibbs free energy changes, was to induce an intramolecular electrostatic interaction in the zwitterionic moieties. These results highlight the practicality of fine-tuning the design of zwitterionic moieties on polymers for the future development of nanomedicines that can recognize the narrow pH window in tumor acidic environments.

Published

2024

2. Iriomoteolide-1a and -1b: Structure Elucidation by Integrating NMR Spectroscopic Analysis, Theoretical Calculation, and Total Synthesis.

Author

Obana T, Nakajima M, Nakazato K, Nakagawa H, Murata K, Tsuda M, and Fuwa H

Abstract

The structure of iriomoteolide-1a, a marine macrolide with potent cytotoxic activity against human cancer cells, has been under scrutiny for more than a decade since the first total synthesis of the proposed structure was achieved by Horne. Here we disclose the correct structure of iriomoteolide-1a. Given a huge number of possible stereoisomers, we adopted an integrated strategy toward the structure elucidation of iriomoteolide-1a: (1) NMR spectroscopic analysis/molecular mechanics-based conformational analysis for configurational reassignment of the macrolactone domain; (2) model synthesis for validating the reassigned configuration of the macrolactone domain; (3) GIAO NMR calculation/DP4+ analysis of side chain stereoisomers; and (4) total synthesis of the most likely structure. Moreover, the correct structure of iriomoteolide-1b, a natural congener, was also determined by an integration of NMR spectroscopic analysis, GIAO NMR calculation/DP4+ analysis, and total synthesis.

Published

2024

3. Perfluoropolyether-Based Gut-Liver-on-a-Chip for the Evaluation of First-Pass Metabolism and Oral Bioavailability of Drugs.

Author

Wang M, Sasaki Y, Sakagami R, Minamikawa T, Tsuda M, Ueno R, Deguchi S, Negoro R, So K, Higuchi Y, Yokokawa R, Takayama K, and Yamashita F

Subjects

Humans, Administration, Oral, Lab-On-A-Chip Devices, Caco-2 Cells, Cytochrome P-450 CYP3A metabolism, Animals, Biological Availability, Liver metabolism, Fluorocarbons chemistry, Fluorocarbons pharmacokinetics, Fluorocarbons metabolism, Ethers

Abstract

In the evolving field of drug discovery and development, multiorgans-on-a-chip and microphysiological systems are gaining popularity owing to their ability to emulate in vivo biological environments. Among the various gut-liver-on-a-chip systems for studying oral drug absorption, the chip developed in this study stands out with two distinct features: incorporation of perfluoropolyether (PFPE) to effectively mitigate drug sorption and a unique enterohepatic single-passage system, which simplifies the analysis of first-pass metabolism and oral bioavailability. By introducing a bolus drug injection into the liver compartment, hepatic extraction alone could be evaluated, further enhancing our estimation of intestinal availability. In a study on midazolam (MDZ), PFPE-based chips showed more than 20-times the appearance of intact MDZ in the liver compartment effluent compared to PDMS-based counterparts. Notably, saturation of hepatic metabolism at higher concentrations was confirmed by observations when the dose was reduced from 200 μM to 10 μM. This result was further emphasized when the metabolism was significantly inhibited by the coadministration of ketoconazole. Our chip, which is designed to minimize the dead volume between the gut and liver compartments, is adept at sensitively observing the saturation of metabolism and the effect of inhibitors. Using genome-edited CYP3A4/UGT1A1-expressing Caco-2 cells, the estimates for intestinal and hepatic availabilities were 0.96 and 0.82, respectively; these values are higher than the known human in vivo values. Although the metabolic activity in each compartment can be further improved, this gut-liver-on-a-chip can not only be used to evaluate oral bioavailability but also to carry out individual assessment of both intestinal and hepatic availability.

Published

2024

4. Caging Bioactive Triarylimidazoles: An Approach to Create Visible Light-Activatable Drugs.

Author

Qi J, Amrutha AS, Ishida-Ishihara S, Dokainish HM, Hashim PK, Miyazaki R, Tsuda M, Tanaka S, and Tamaoki N

Subjects

Humans, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry, Antineoplastic Agents chemical synthesis, Cell Movement drug effects, Molecular Structure, Cell Line, Tumor, Benzamides pharmacology, Benzamides chemistry, Benzamides chemical synthesis, Light, Imidazoles chemistry, Imidazoles pharmacology, Imidazoles chemical synthesis

Abstract

Imidazoles are crucial structural components in a variety of small-molecule inhibitors designed to target different kinases in anticancer treatment. However, the effectiveness of such inhibitors is often hampered by nonspecific effects and the development of resistance. Photopharmacology provides a compelling solution by enabling external control over drug activity with spatiotemporal precision. Herein, we introduce a novel strategy for caging bioactive triarylimidazole-based drug molecules. This approach involves introducing a dialkylamino group as a photoremovable group on the carbon atom of the imidazole ring, which intrinsically modulates the core structure from planar imidazole to tetrahedral 2 H -imidazole, enabling the caged compound to be selectively uncaged upon visible light exposure. We applied this innovative caging technique to SB431542 , a triarylimidazole-based small-molecule inhibitor that targets the pivotal TGF-β signaling pathway, the dysregulation of which is linked to several human diseases, including cancer. Our results demonstrated the selective inhibition of human breast cancer cell migration in vitro upon light activation, highlighting the potential of our approach to transform triarylimidazole-based drug molecules into visible light-activatable drugs, thereby facilitating spatiotemporal regulation of their pharmacological activity.

Published

2024

5. Chemoselective α-Trifluoroacetylation of Amides Using Highly Electrophilic Trifluoroacetic Anhydrides and 2,4,6-Collidine.

Author

Morita T, Makino K, Tsuda M, and Nakamura H

Abstract

Chemoselective α-acylation of tertiary amides proceeded with highly electrophilic acid anhydrides and weak bases under mild conditions. β-Ketoamides containing trifluoroacetyl or perfluoroacyl groups were selectively obtained even in the presence of other functional groups such as ketone, ester, etc. Density functional theory calculations suggest that 1-acyloxyenamine is the key intermediate for the chemoselective α-acylation.

Published

2023

6. Nutritional Evaluation of Milk-, Plant-, and Insect-Based Protein Materials by Protein Digestibility Using the INFOGEST Digestion Method.

Author

Komatsu Y, Tsuda M, Wada Y, Shibasaki T, Nakamura H, and Miyaji K

Subjects

Animals, Digestion, Proteins metabolism, Amino Acids metabolism, Milk Proteins metabolism, Insecta metabolism, Milk metabolism, Ileum metabolism

Abstract

The INFOGEST method is a valuable tool for understanding and monitoring food digestion as an alternative to in vivo assays. However, few studies have compared animal and alternative protein sources in terms of protein quality using the INFOGEST method. This study aimed to evaluate the protein quality of milk-, plant-, and insect-based protein materials by in vitro protein digestibility and in vitro digestible indispensable amino acid score (DIAAS), following the INFOGEST method. Milk-based protein materials had the highest protein digestibility (86.1-90.8%), followed by soy (85.1%) and wheat (82.3%). These materials had significantly higher protein digestibility compared with zein (65.1%), cricket (63.6%), and mealworm (69.5%). Additionally, the mean values of in vitro DIAAS of milk-based protein materials (105.0-137.5) were higher than those of plant- and insect-based protein materials (1.9-91.0). Milk-based protein materials have higher protein quality than plant- and insect-based protein materials by the nutritional evaluation following the INFOGEST digestion method.

Published

2023

7. SPRTN and TDP1/TDP2 Independently Suppress 5-Aza-2'-deoxycytidine-Induced Genomic Instability in Human TK6 Cell Line.

Author

Nakano T, Moriwaki T, Tsuda M, Miyakawa M, Hanaichi Y, Sasanuma H, Hirota K, Kawanishi M, Ide H, Tano K, and Bessho T

Subjects

Humans, Decitabine pharmacology, DNA metabolism, Cell Line, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Phosphoric Diester Hydrolases genetics, Phosphoric Diester Hydrolases metabolism, Genomic Instability, DNA Repair

Abstract

DNA-protein cross-links (DPCs) are generated by internal factors such as cellular aldehydes that are generated during normal metabolism and external factors such as environmental mutagens. A nucleoside analog, 5-aza-2'-deoxycytidine (5-azadC), is randomly incorporated into the genome during DNA replication and binds DNA methyltransferase 1 (DNMT1) covalently to form DNMT1-DPCs without inducing DNA strand breaks. Despite the recent progress in understanding the mechanisms of DPCs repair, how DNMT1-DPCs are repaired is unclear. The metalloprotease SPRTN has been considered as the primary enzyme to degrade protein components of DPCs to initiate the repair of DPCs. In this study, we showed that SPRTN-deficient ( SPRTN -/- ) human TK6 cells displayed high sensitivity to 5-azadC, and the removal of 5-azadC-induced DNMT1-DPCs was significantly slower in SPRTN -/- cells than that in wild-type cells. We also showed that the ubiquitination-dependent proteasomal degradation, which was independent of the SPRTN-mediated processing, was also involved in the repair of DNMT1-DPCs. Unexpectedly, we found that cells that are double deficient in tyrosyl DNA phosphodiesterase 1 and 2 ( TDP1 -/- TDP2 -/- ) were also sensitive to 5-azadC, although the removal of 5-azadC-induced DNMT1-DPCs was not compromised significantly. Furthermore, the 5-azadC treatment induced a marked accumulation of chromosomal breaks in SPRTN -/- as well as TDP1 -/- TDP2 -/- cells compared to wild-type cells, strongly suggesting that the 5-azadC-induced cell death was attributed to chromosomal DNMT1-DPCs. We conclude that SPRTN protects cells from 5-azadC-induced DNMT1-DPCs, and SPRTN may play a direct proteolytic role against DNMT1-DPCs and TDP1/TDP2 also contributes to suppress genome instability caused by 5-azadC in TK6 cells.

Published

2022

8. Generation of Tetrafluoroethylene-Propylene Elastomer-Based Microfluidic Devices for Drug Toxicity and Metabolism Studies.

Author

Sano E, Deguchi S, Matsuoka N, Tsuda M, Wang M, Kosugi K, Mori C, Yagi K, Wada A, Yamasaki S, Kawai T, Yodogawa M, Mizuguchi H, Nakazawa N, Yamashita F, Torisawa YS, and Takayama K

Abstract

Polydimethylsiloxane (PDMS) is widely used to fabricate microfluidic organs-on-chips. Using these devices (PDMS-based devices), the mechanical microenvironment of living tissues, such as pulmonary respiration and intestinal peristalsis, can be reproduced in vitro . However, the use of PDMS-based devices in drug discovery research is limited because of their extensive absorption of drugs. In this study, we investigated the feasibility of the tetrafluoroethylene-propylene (FEPM) elastomer to fabricate a hepatocyte-on-a-chip (FEPM-based hepatocyte chip) with lower drug absorption. The FEPM-based hepatocyte chip expressed drug-metabolizing enzymes, drug-conjugating enzymes, and drug transporters. Also, it could produce human albumin. Although the metabolites of midazolam and bufuralol were hardly detected in the PDMS-based hepatocyte chip, they were detected abundantly in the FEPM-based hepatocyte chip. Finally, coumarin-induced hepatocyte cytotoxicity was less severe in the PDMS-based hepatocyte chip than in the FEPM-based hepatocyte chip, reflecting the different drug absorptions of the two chips. In conclusion, the FEPM-based hepatocyte chip could be a useful tool in drug discovery research, including drug metabolism and toxicity studies., Competing Interests: The authors declare the following competing financial interest(s): N.M., K.Y., A.W., S.Y., T.K., M.Y., and N.N. are employees of AGC Inc. and AGC Group Companies., (© 2021 The Authors. Published by American Chemical Society.)

Published

2021

9. Usability of Polydimethylsiloxane-Based Microfluidic Devices in Pharmaceutical Research Using Human Hepatocytes.

Author

Deguchi S, Tsuda M, Kosugi K, Sakamoto A, Mimura N, Negoro R, Sano E, Nobe T, Maeda K, Kusuhara H, Mizuguchi H, Yamashita F, Torisawa YS, and Takayama K

Subjects

Dimethylpolysiloxanes, Hepatocytes, Humans, Hydrophobic and Hydrophilic Interactions, Lab-On-A-Chip Devices, Pharmaceutical Research

Abstract

A liver-on-a-chip (liver-chip) is a microfluidic device carrying liver cells such as human hepatocytes. It is used to reproduce a part of liver function. Many microfluidic devices are composed of polydimethylsiloxane (PDMS), which is a type of silicone elastomer. PDMS is easy to process and suitable for cell observation, but its high hydrophobicity carries the risk of drug absorption. In this study, we evaluated drug absorption to the PDMS device and investigated the drug responsiveness of human hepatocytes cultured in the PDMS device (hepatocyte-chips). First, the absorption rates of 12 compounds to the PDMS device were measured. The absorption rates of midazolam, bufuralol, cyclosporine A, and verapamil were 92.9, 71.7, 71.4, and 99.6%, respectively, but the other compounds were poorly absorbed. Importantly, the absorption rate of the compounds was correlated with their octanol/water distribution coefficient (log  D ) values ( R 2 = 0.76). Next, hepatocyte-chips were used to examine the response to drugs, which are typically used to evaluate hepatic functions. Using the hepatocyte-chips, we could confirm the responsiveness of drugs including cytochrome P450 (CYP) inducers and farnesoid X receptor (FXR) ligands. We believe that our findings will contribute to drug discovery research using PDMS-based liver-chips.

Published

2021

10. Chitin-Based Double-Network Hydrogel as Potential Superficial Soft-Tissue-Repairing Materials.

Author

Huang J, Frauenlob M, Shibata Y, Wang L, Nakajima T, Nonoyama T, Tsuda M, Tanaka S, Kurokawa T, and Gong JP

Subjects

Animals, Biocompatible Materials, Mice, NIH 3T3 Cells, Tissue Scaffolds, Chitin, Hydrogels

Abstract

Chitin is a biopolymer, which has been proven to be a biomedical material candidate, yet the weak mechanical properties seriously limit their potentials. In this work, a chitin-based double-network (DN) hydrogel has been designed as a potential superficial repairing material. The hydrogel was synthesized through a double-network (DN) strategy composing hybrid regenerated chitin nanofiber (RCN)-poly (ethylene glycol diglycidyl ether) (PEGDE) as the first network and polyacrylamide (PAAm) as the second network. The hybrid RCN-PEGDE/PAAm DN hydrogel was strong and tough, possessing Young's modulus (elasticity) E 0.097 ± 0.020 MPa, fracture stress σ f 0.449 ± 0.025 MPa, and work of fracture W 5.75 ± 0.35 MJ·m f 5.75 ± 0.35 MJ·m -3 . The obtained DN hydrogel was strong enough for surgical requirements in the usage of soft tissue scaffolds. In addition, chitin endowed the DN hydrogel with good bacterial resistance and accelerated fibroblast proliferation, which increased the NIH3T3 cell number by nearly five times within 3 days. Subcutaneous implantation studies showed that the DN hydrogel did not induce inflammation after 4 weeks, suggesting a good biosafety in vivo. These results indicated that the hybrid RCN-PEGDE/PAAm DN hydrogel had great prospect as a rapid soft-tissue-repairing material.

Published

2020

11. Stereodivergent Synthesis and Configurational Assignment of the C1-C15 Segment of Amphirionin-5.

Author

Kanto M, Sato S, Tsuda M, and Sasaki M

Subjects

Carbon-13 Magnetic Resonance Spectroscopy, Cell Proliferation drug effects, Marine Biology, Polyketides chemistry, Polyketides pharmacology, Proton Magnetic Resonance Spectroscopy, Spectrometry, Mass, Electrospray Ionization, Stereoisomerism, Polyketides chemical synthesis

Abstract

The relative configuration of the C3-C12 portion of amphirionin-5, a novel marine polyketide with potent cell proliferation-promoting activity, was established by the stereodivergent synthesis of six diastereomeric model compounds and comparison of their NMR spectroscopic data with those reported for the natural product. This study led to the elucidation of the relative configuration between C4/C5 and C9/C12 and to the reassignment of the proposed configuration of the C9 position of amphirionin-5.

Published

2016

12. Amphirionin-4 with potent proliferation-promoting activity on bone marrow stromal cells from a marine dinoflagellate amphidinium species.

Author

Minamida M, Kumagai K, Ulanova D, Akakabe M, Konishi Y, Tominaga A, Tanaka H, Tsuda M, Fukushi E, Kawabata J, Masuda A, and Tsuda M

Subjects

Animals, Cell Proliferation drug effects, Macrolides chemistry, Marine Biology, Mice, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Polyketides chemistry, Dinoflagellida chemistry, Mesenchymal Stem Cells drug effects, Polyketides isolation & purification, Polyketides pharmacology

Abstract

A linear polyketide, amphirionin-4 (1), has been isolated from cultivated algal cells of the marine dinoflagellate Amphidinium species. The structure was elucidated on the basis of detailed analyses of 1D and 2D NMR data, and the absolute configurations of C-4 and C-8 were determined using the modified Mosher's method. Amphirionin-4 (1) exhibited extremely potent proliferation-promoting activity on murine bone marrow stromal ST-2 cells (950% promotion) at a concentration of 0.1 ng/mL.

Published

2014

13. Direct and stereospecific interaction of amphidinol 3 with sterol in lipid bilayers.

Author

Espiritu RA, Matsumori N, Tsuda M, and Murata M

Subjects

Cells, Cultured, Dinoflagellida chemistry, Dinoflagellida metabolism, Drug Interactions, Magnetic Resonance Spectroscopy methods, Protein Binding physiology, Stereoisomerism, Alkenes chemistry, Alkenes metabolism, Lipid Bilayers chemistry, Lipid Bilayers metabolism, Pyrans chemistry, Pyrans metabolism

Abstract

Amphidinol 3 (AM3), a polyhydroxy-polyene metabolite from the dinoflagellate Amphidinium klebsii, possesses potent antifungal activity. Although AM3 permeabilizes phospholipid membranes only in the presence of sterol, the detailed molecular basis by which AM3 recognizes sterols in membranes remains unknown. Here, we investigated the molecular interaction between sterols and AM3 in membranes from the viewpoint of stereospecific molecular recognition using ergosterol, cholesterol, and epicholesterol, which is the 3-OH epimer of cholesterol. Dye leakage assays, surface plasmon resonance experiments, (2)H and (31)P NMR measurements, and microscopic observations revealed that AM3 directly interacts with membrane sterols through the strict molecular recognition of the stereochemistry of the sterol 3-OH group. The direct interaction enhances the membrane binding efficiency of AM3, which subsequently permeabilizes membranes without altering membrane integrity.

Published

2014

14. Novel Indole-N-glucoside, TA-1887 As a Sodium Glucose Cotransporter 2 Inhibitor for Treatment of Type 2 Diabetes.

Author

Nomura S, Yamamoto Y, Matsumura Y, Ohba K, Sakamaki S, Kimata H, Nakayama K, Kuriyama C, Matsushita Y, Ueta K, and Tsuda-Tsukimoto M

Abstract

Inhibition of the renal sodium glucose cotransporter (SGLT) increases urinary glucose excretion (UGE) and thus reduces blood glucose levels during hyperglycemia. To explore the potential of new antihyperglycemic agents, we synthesized and determined the human SGLT2 (hSGLT2) inhibitory potential of novel substituted 3-benzylindole-N-glucosides 6. Optimization of 6 resulted in the discovery of 3-(4-cyclopropylbenzyl)-4-fluoroindole-N-glucoside 6a-4 (TA-1887), a highly potent and selective hSGLT2 inhibitor, with pronounced antihyperglycemic effects in high-fat diet-fed KK (HF-KK) mice. Our results suggest the potential of indole-N-glucosides as novel antihyperglycemic agents through inhibition of renal SGLT2.

Published

2013

15. Time-resolved spectroscopy of ultrafast photoisomerization of octopus rhodopsin under photoexcitation.

Author

Yabushita A, Kobayashi T, and Tsuda M

Subjects

Algorithms, Isomerism, Lasers, Retinaldehyde chemistry, Spectrophotometry, Time Factors, Rhodopsin chemistry

Abstract

A primary process in vision is the cis-trans photoisomerization of a chromophore of rhodopsin, called retinal. In the present work, we have performed ultrafast time-resolved spectroscopy of octopus rhodopsin using a sub-5-fs pulse laser. In comparison with our previous study on bacteriorhodopsin, we found that octopus rhodopsin follows similar dynamics after photoexcitation but with different time constants. Spectrogram analysis showed that a C═N stretching mode appeared directly after photoexcitation. After reaching the conical intersection region at 80 fs, the overlapping hydrogen out-of-plane and in-plane C═C-H modes emerged as distinct peaks at ~200 fs, finishing a rapid relaxation along the coordinate related with these modes. The intensities of these peaks and a C═C stretching mode were found to be modulated at a period of ∼500 fs, reflecting torsional motion around the C═C double bond before thermalization with the distribution of structural variations in the all-trans structure in configuration space.

Published

2012

16. Wnt inhibition correlates with human embryonic stem cell cardiomyogenesis: a structure-activity relationship study based on inhibitors for the Wnt response.

Author

Lanier M, Schade D, Willems E, Tsuda M, Spiering S, Kalisiak J, Mercola M, and Cashman JR

Subjects

Cell Differentiation drug effects, Cell Line, Embryonic Stem Cells cytology, Heterocyclic Compounds, 3-Ring chemistry, Heterocyclic Compounds, 3-Ring pharmacology, Humans, Myocytes, Cardiac cytology, Structure-Activity Relationship, Tetrahydronaphthalenes chemistry, Tetrahydronaphthalenes pharmacology, Embryonic Stem Cells drug effects, Heterocyclic Compounds, 3-Ring chemical synthesis, Myocytes, Cardiac drug effects, Tetrahydronaphthalenes chemical synthesis, Wnt Proteins antagonists & inhibitors

Abstract

Human embryonic stem cell-based high-content screening of 550 known signal transduction modulators showed that one "lead" (1, a recently described inhibitor of the proteolytic degradation of Axin) stimulated cardiomyogenesis. Because Axin controls canonical Wnt signaling, we conducted an investigation to determine whether the cardiogenic activity of 1 is Wnt-dependent, and we developed a structure-activity relationship to optimize the cardiogenic properties of 1. We prepared analogues with a range of potencies (low nanomolar to inactive) for Wnt/β-catenin inhibition and for cardiogenic induction. Both functional activities correlated positively (r(2) = 0.72). The optimal compounds induced cardiogenesis 1.5-fold greater than 1 at 30-fold lower concentrations. In contrast, no correlation was observed for cardiogenesis and modulation of transforming growth factor β (TGFβ)/Smad signaling that prominently influences cardiogenesis. Taken together, these data show that Wnt signaling inhibition is essential for cardiogenic activity and that the pathway can be targeted for the design of druglike cardiogenic molecules.

Published

2012

17. Hyrtioseragamines A and B, new alkaloids from the sponge Hyrtios species.

Author

Takahashi Y, Iinuma Y, Kubota T, Tsuda M, Sekiguchi M, Mikami Y, Fromont J, and Kobayashi J

Subjects

Alkaloids chemistry, Animals, Antifungal Agents chemistry, Antifungal Agents pharmacology, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Aspergillus niger drug effects, Biological Products chemistry, Biological Products pharmacology, Cryptococcus neoformans drug effects, Drug Screening Assays, Antitumor, Furans chemistry, Furans pharmacology, Humans, KB Cells, Marine Biology, Mice, Microbial Sensitivity Tests, Molecular Structure, Pyrazines chemistry, Pyrazines pharmacology, Antifungal Agents isolation & purification, Antineoplastic Agents isolation & purification, Biological Products isolation & purification, Furans isolation & purification, Porifera chemistry, Pyrazines isolation & purification

Abstract

Two novel alkaloids with a furo[2,3-b]pyrazin-2(1H)-one moiety and a guanidino group, hyrtioseragamines A (1) and B (2), have been isolated from an Okinawan marine sponge Hyrtios species. The structures of 1 and 2 were elucidated on the basis of spectroscopic data and chemical conversions. Compounds 1 and 2 are the first natural products possessing a furo[2,3-b]pyrazine-related moiety.

Published

2011

18. Discovery of canagliflozin, a novel C-glucoside with thiophene ring, as sodium-dependent glucose cotransporter 2 inhibitor for the treatment of type 2 diabetes mellitus.

Author

Nomura S, Sakamaki S, Hongu M, Kawanishi E, Koga Y, Sakamoto T, Yamamoto Y, Ueta K, Kimata H, Nakayama K, and Tsuda-Tsukimoto M

Subjects

Animals, Biological Availability, Canagliflozin, Carbonates pharmacology, Glucosides pharmacokinetics, Glucosides pharmacology, Humans, Hypoglycemic Agents pharmacokinetics, Hypoglycemic Agents pharmacology, Male, Mice, Rats, Rats, Sprague-Dawley, Stereoisomerism, Structure-Activity Relationship, Thiophenes pharmacokinetics, Thiophenes pharmacology, Diabetes Mellitus, Type 2 drug therapy, Glucosides chemical synthesis, Hypoglycemic Agents chemical synthesis, Sodium-Glucose Transporter 2 Inhibitors, Thiophenes chemical synthesis

Abstract

We discovered that C-glucosides 4 bearing a heteroaromatic ring formed metabolically more stable inhibitors for sodium-dependent glucose cotransporter 2 (SGLT2) than the O-glucoside, 2 (T-1095). A novel thiophene derivative 4b-3 (canagliflozin) was a highly potent and selective SGLT2 inhibitor and showed pronounced anti-hyperglycemic effects in high-fat diet fed KK (HF-KK) mice.

Published

2010

19. Nagelamides K and L, dimeric bromopyrrole alkaloids from sponge Agelas species.

Author

Araki A, Kubota T, Tsuda M, Mikami Y, Fromont J, and Kobayashi J

Subjects

Alkaloids chemical synthesis, Animals, Anti-Infective Agents chemical synthesis, Dimerization, Magnetic Resonance Spectroscopy, Microbial Sensitivity Tests, Micrococcus luteus drug effects, Pyrroles chemical synthesis, Stereoisomerism, Agelas chemistry, Alkaloids chemistry, Alkaloids pharmacology, Anti-Infective Agents chemistry, Anti-Infective Agents pharmacology, Pyrroles chemistry, Pyrroles pharmacology

Abstract

Two new dimeric bromopyrrole alkaloids, nagelamides K (1) and L (2), have been isolated from Okinawan marine sponges Agelas species, and the structures and stereochemistry were elucidated from spectroscopic data. Nagelamide K (1) is a bromopyrrole alkaloid possessing a rare piperidinoiminoimidazolone ring with an aminoimidazole ring and a taurine unit, while nagelamide L (2) is a unique dimeric bromopyrrole alkaloid containing an ester linkage. Nagelamides K (1) and L (2) exhibited antimicrobial activity.

Published

2008

20. Iriomoteolide-3a, a cytotoxic 15-membered macrolide from a marine dinoflagellate amphidinium species.

Author

Oguchi K, Tsuda M, Iwamoto R, Okamoto Y, Kobayashi J, Fukushi E, Kawabata J, Ozawa T, Masuda A, Kitaya Y, and Omasa K

Subjects

Animals, Cell Line, Tumor, Drug Screening Assays, Antitumor, Humans, Macrolides chemistry, Magnetic Resonance Spectroscopy, Models, Molecular, Dinoflagellida chemistry, Macrolides isolation & purification

Abstract

A 15-membered macrolide, iriomoteolide-3a (1), with an allyl epoxide has been isolated from a marine benthic dinoflagellate Amphidinium sp. (strain HYA024), and the structure was assigned by detailed analyses of 2D NMR data. Relative and absolute configurations were elucidated on the basis of conformational studies of 1 and its acetonide (2) and modified Mosher's method of 1, respectively. Iriomoteolide-3a (1) and the acetonide (2) exhibited potently cytotoxic activity against antitumor cells.

Published

2008

21. Iriomoteolide-1a, a potent cytotoxic 20-membered macrolide from a benthic dinoflagellate amphidinium species.

Author

Tsuda M, Oguchi K, Iwamoto R, Okamoto Y, Kobayashi J, Fukushi E, Kawabata J, Ozawa T, Masuda A, Kitaya Y, and Omasa K

Subjects

Animals, Macrolides chemistry, Macrolides isolation & purification, Models, Molecular, Molecular Conformation, Nuclear Magnetic Resonance, Biomolecular, Dinoflagellida chemistry, Macrolides chemical synthesis

Abstract

A potent cytotoxic 20-membered macrolide, iriomoteolide-1a (1), has been isolated from a benthic dinoflagellate Amphidinium sp. (strain HYA024), and the structure was elucidated on the basis of detailed analyses of 2-D NMR data. The relative and absolute stereochemistries were assigned by the combination of conformational analyses using NMR data and modified Mosher's method of 1.

Published

2007

22. Nagelamide J, a novel dimeric bromopyrrole alkaloid from a sponge Agelas species.

Author

Araki A, Tsuda M, Kubota T, Mikami Y, Fromont J, and Kobayashi J

Subjects

Alkaloids isolation & purification, Alkaloids pharmacology, Animals, Cryptococcus neoformans drug effects, Magnetic Resonance Spectroscopy methods, Microbial Sensitivity Tests, Models, Molecular, Molecular Structure, Pyrroles isolation & purification, Pyrroles pharmacology, Sensitivity and Specificity, Species Specificity, Staphylococcus aureus drug effects, Structure-Activity Relationship, Agelas chemistry, Alkaloids chemistry, Pyrroles chemistry

Abstract

A novel dimeric bromopyrrole alkaloid, nagelamide J (1), with antimicrobial activity has been isolated from an Okinawan marine sponge Agelas species, and the structure and stereochemistry were elucidated from spectroscopic data. Nagelamide J (1) is the first bromopyrrole alkaloid possessing a cyclopentane ring fused to an amino imidazole ring.

Published

2007

23. Agesamides A and B, bromopyrrole alkaloids from sponge Agelas species: application of DOSY for chemical screening of new metabolites.

Author

Tsuda M, Yasuda T, Fukushi E, Kawabata J, Sekiguchi M, Fromont J, and Kobayashi J

Subjects

Animals, Magnetic Resonance Spectroscopy methods, Piperazines chemistry, Porifera chemistry, Pyrroles chemistry

Abstract

Diffusion-ordered NMR spectroscopy (DOSY) is a versatile and powerful NMR technique and a noninvasive analytical method for mixture analysis that does not require prior physical separation of the analytes. In our search for new metabolites from natural resources, DOSY was applied for constituent analysis of crude bromopyrrole fractions separated from an Okinawan marine sponge Agelas sp. so that two new bromopyrrole alkaloids, agesamides A (1) and B (2), have been isolated. The structures and relative stereochemistry of 1 and 2 were elucidated from spectroscopic data.

Published

2006

24. Absolute stereochemistry of citrinadins a and B from marine-derived fungus.

Author

Mugishima T, Tsuda M, Kasai Y, Ishiyama H, Fukushi E, Kawabata J, Watanabe M, Akao K, and Kobayashi J

Subjects

Alkaloids chemistry, Circular Dichroism, Indole Alkaloids, Stereoisomerism, Valine chemistry, Quinolizines chemistry, Rhodophyta chemistry, Valine analogs & derivatives

Abstract

[Structure: see text]. Citrinadin A (2) is a pentacyclic indolinone alkaloid isolated from the cultured broth of a fungus, Penicillium citrinum, which was separated from a marine red alga. The absolute stereochemistry of the pentacyclic core in 2 and its new congener, citrinadin B (1), was elucidated by analysis of the ROESY spectrum for the chlorohydrin derivative (3) of 1 as well as comparison of the electronic circular dichroism (ECD) spectra for 1 and 2 with those of known spirooxiindole alkaloids. On the other hand, the absolute configuration at C-21 bearing an epoxide ring was assigned as S by comparison of the vibrational circular dichroism (VCD) spectra of 1 with those of model compounds 2S- and 2R-2,3-epoxy-3,3-dimethyl-1-phenylpropan-1-one (4a and 4b, respectively).

Published

2005

25. Perinadine A, a novel tetracyclic alkaloid from marine-derived fungus Penicillium citrinum.

Author

Sasaki M, Tsuda M, Sekiguchi M, Mikami Y, and Kobayashi J

Subjects

Magnetic Resonance Spectroscopy, Models, Molecular, Molecular Conformation, Oceans and Seas, Stereoisomerism, Alkaloids chemistry, Penicillium chemistry, Polycyclic Compounds chemistry

Abstract

[structure: see text] A novel tetracyclic alkaloid, perinadine A (1), was isolated from the cultured broth of the fungus Penicillium citrinum, which was separated from the gastrointestine of a marine fish, and the structure was elucidated on the basis of spectroscopic data including 2D NMR spectra. Biogenetically, perinadine A (1) may be derived from citrinin (4), a well-known mycotoxin, and a scalusamide A-type pyrrolidine alkaloid.

Published

2005

26. Citrinadin A, a novel pentacyclic alkaloid from marine-derived fungus Penicillium citrinum.

Author

Tsuda M, Kasai Y, Komatsu K, Sone T, Tanaka M, Mikami Y, and Kobayashi J

Subjects

Chromatography, High Pressure Liquid, Indole Alkaloids, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Rhodophyta, Valine chemistry, Valine isolation & purification, Alkaloids chemistry, Alkaloids isolation & purification, Penicillium chemistry, Quinolizines chemistry, Quinolizines isolation & purification, Valine analogs & derivatives

Abstract

[structure: see text] A novel pentacyclic alkaloid, citrinadin A (1), was isolated from the cultured broth of the fungus Penicillium citrinum, which was separated from a marine red alga, and the structure was elucidated by spectroscopic data. The relative stereochemistry of the pentacyclic core was assigned on the basis of NOESY data and (1)H-(1)H coupling constants, and the presence of an N,N-dimethyl-L-valine residue in 1 was determined by chiral HPLC analysis of the hydrolysate.

Published

2004

27. Absolute stereochemistry of immunosuppressive macrolide brasilinolide A and its new congener brasilinolide C.

Author

Komatsu K, Tsuda M, Tanaka Y, Mikami Y, and Kobayashi J

Subjects

Carbohydrate Conformation, Hydrolysis, Immunosuppressive Agents isolation & purification, Macrolides isolation & purification, Magnetic Resonance Spectroscopy, Molecular Structure, Oxidation-Reduction, Pyrans isolation & purification, Stereoisomerism, Immunosuppressive Agents chemistry, Macrolides chemistry, Nocardia metabolism, Pyrans chemistry

Abstract

Brasilinolide A (2) is a 32-membered polyhydroxyl macrolide with immunosuppressive activity isolated from a pathogenic actinomycete, Nocardia brasiliensis IFM0406. The absolute configurations at 26 chiral centers of 2 and its new congener, brasilinolide C (1), were determined on the basis of the spectral data of 1 and degradation products derived from 1 and 2.

Published

2004

28. Amphidinolide Y, a novel 17-membered macrolide from dinoflagellate Amphidinium sp.: plausible biogenetic precursor of amphidinolide X.

Author

Tsuda M, Izui N, Shimbo K, Sato M, Fukushi E, Kawabata J, and Kobayashi J

Subjects

Animals, Macrolides chemistry, Magnetic Resonance Spectroscopy, Molecular Structure, Spectrometry, Mass, Fast Atom Bombardment, Dinoflagellida chemistry, Macrolides isolation & purification

Abstract

A novel cytotoxic 17-membered macrolide, amphidinolide Y (1), has been isolated from a marine dinoflagellate Amphidinium sp., and it was elucidated to exist as a 9:1 equilibrium mixture of 6-keto- and 6(9)-hemiacetal forms (1a and 1b, respectively) on the basis of 2D NMR data and chemical means. The feeding experiments with (13)C-labeled acetates suggested that amphidinolide Y (1) may be a biogenetic precursor of 16-membered macrodiolide, amphidinolide X (2).

Published

2003

29. Amphidinolide X, a novel 16-membered macrodiolide from dinoflagellate Amphidinium sp.

Author

Tsuda M, Izui N, Shimbo K, Sato M, Fukushi E, Kawabata J, Katsumata K, Horiguchi T, and Kobayashi J

Subjects

Animals, Carbon Isotopes, Macrolides chemical synthesis, Macrolides chemistry, Macrolides pharmacology, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Stereoisomerism, Dinoflagellida chemistry, Macrolides isolation & purification

Abstract

A novel cytotoxic 16-membered macrodiolide, amphidinolide X (1), has been isolated from a marine dinoflagellate Amphidinium sp. (strain Y-42). The gross structure of 1 was elucidated on the basis of spectroscopic data including one-bond and long-range (13)C-(13)C correlations. The relative and absolute stereochemistries were determined by combined analyses of NOESY data and (1)H-(1)H and (1)H-(13)C coupling constants of 1 and NMR data of the degradation products. Amphidinolide X (1) is the first macrodiolide consisting of polyketide-derived diacid and diol units from natural sources. The biosynthetic origins of 1 were investigated by means of feeding experiments with (13)C-labeled acetates.

Published

2003

30. Halide-stabilizing residues of haloalkane dehalogenases studied by quantum mechanic calculations and site-directed mutagenesis.

Author

Bohác M, Nagata Y, Prokop Z, Prokop M, Monincová M, Tsuda M, Koca J, and Damborský J

Subjects

Amino Acids genetics, Anions chemistry, Asparagine genetics, Glutamic Acid genetics, Histidine genetics, Isoleucine genetics, Leucine genetics, Mathematical Computing, Models, Chemical, Phenylalanine genetics, Proline genetics, Static Electricity, Tryptophan genetics, Valine genetics, Amino Acids chemistry, Halogens chemistry, Hydrolases chemistry, Hydrolases genetics, Mutagenesis, Site-Directed, Quantum Theory

Abstract

Haloalkane dehalogenases catalyze cleavage of the carbon-halogen bond in halogenated aliphatic compounds, resulting in the formation of an alcohol, a halide, and a proton as the reaction products. Three structural features of haloalkane dehalogenases are essential for their catalytic performance: (i) a catalytic triad, (ii) an oxyanion hole, and (iii) the halide-stabilizing residues. Halide-stabilizing residues are not structurally conserved among different haloalkane dehalogenases. The level of stabilization of the transition state structure of S(N)2 reaction and halide ion provided by each of the active site residues in the enzymes DhlA, LinB, and DhaA was quantified by quantum mechanic calculations. The residues that significantly stabilize the halide ion were assigned as the primary (essential) or the secondary (less important) halide-stabilizing residues. Site-directed mutagenesis was conducted with LinB enzyme to confirm location of its primary halide-stabilizing residues. Asn38Asp, Asn38Glu, Asn38Phe, Asn38Gln, Trp109Leu, Phe151Leu, Phe151Trp, Phe151Tyr, and Phe169Leu mutants of LinB were constructed, purified, and kinetically characterized. The following active site residues were classified as the primary halide-stabilizing residues: Trp125 and Trp175 of DhlA; Asn38 and Trp109 of LinB; and Asn41 and Trp107 of DhaA. All these residues make a hydrogen bond with the halide ion released from the substrate molecule, and their substitution results in enzymes with significantly modified catalytic properties. The following active site residues were classified as the secondary halide-stabilizing residues: Phe172, Pro223, and Val226 of DhlA; Trp207, Pro208, and Ile211 of LinB; and Phe205, Pro206, and Ile209 of DhaA. The differences in the halide stabilizing residues of three haloalkane dehalogenases are discussed in the light of molecular adaptation of these enzymes to their substrates.

Published

2002

31. Amphidinolides H2-H5, G2, and G3, new cytotoxic 26- and 27-membered macrolides from dinoflagellate Amphidinium sp.

Author

Kobayashi J, Shimbo K, Sato M, and Tsuda M

Subjects

Animals, Cell Survival drug effects, Drug Screening Assays, Antitumor, Humans, Japan, KB Cells drug effects, Leukemia, Macrolides chemistry, Macrolides pharmacology, Marine Toxins chemistry, Marine Toxins pharmacology, Mice, Molecular Conformation, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Stereoisomerism, Structure-Activity Relationship, Tumor Cells, Cultured drug effects, Dinoflagellida chemistry, Macrolides isolation & purification, Marine Toxins isolation & purification

Abstract

Six new macrolides, amphidinolides H2 (5), H3 (6), H4 (7), H5 (8), G2 (9), and G3 (10), have been isolated from a marine dinoflagellate Amphidinium sp. (strain Y-42). Cytotoxicity of five derivatives (11-15) of amphidinolide H (1) in addition to 10 amphidinolides (1-10) containing amphidinolides H (1), G (2), B (3), and D (4) was examined, and it was found that the presence of an allyl epoxide, an S-cis-diene moiety, and the ketone at C-20 was important for the cytotoxicity of amphidinolide H (1)-type macrolides.

Published

2002

32. Absolute stereochemistry of amphidinolide E.

Author

Kubota T, Tsuda M, and Kobayashi J

Subjects

Animals, Antineoplastic Agents pharmacology, Biological Products pharmacology, Bridged Bicyclo Compounds, Heterocyclic pharmacology, Catalysis, Esters chemical synthesis, Esters chemistry, Macrolides pharmacology, Molecular Conformation, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Stereoisomerism, Antineoplastic Agents chemistry, Antineoplastic Agents isolation & purification, Biological Products chemistry, Biological Products isolation & purification, Bridged Bicyclo Compounds, Heterocyclic chemistry, Bridged Bicyclo Compounds, Heterocyclic isolation & purification, Dinoflagellida chemistry, Macrolides chemistry, Macrolides isolation & purification

Abstract

The absolute configurations at eight chiral centers in amphidinolide E (1), a cytotoxic 19-membered macrolide isolated from a marine dinoflagellate Amphidinium sp., were determined to be 2R, 7R, 8R, 13S, 16S, 17R, 18R, and 19R on the basis of detailed analysis of NMR data and by chemical means.

Published

2002

33. Amphidinolide W, a new 12-membered macrolide from dinoflagellate Amphidinium sp.

Author

Shimbo K, Tsuda M, Izui N, and Kobayashi J

Subjects

Animals, Macrolides chemistry, Magnetic Resonance Spectroscopy, Mass Spectrometry methods, Molecular Structure, Dinoflagellida chemistry, Macrolides isolation & purification

Abstract

A new cytotoxic 12-membered macrolide, amphidinolide W (1), has been isolated from a marine dinoflagellate Amphidinium sp., and the structure was elucidated by spectroscopic data including (13)C-(13)C INADEQUATE correlations for its (13)C-enriched sample. The absolute stereochemistry of 1 was assigned by combination of J-based configuration analysis and modified Mosher method. Amphidinolide W (1) is the first macrolide without an exomethylene unit among all amphidinolides obtained so far.

Published

2002

34. Monooxygenation mechanism by cytochrome p-450.

Author

Hata M, Hirano Y, Hoshino T, and Tsuda M

Subjects

Binding Sites, Camphor 5-Monooxygenase chemistry, Camphor 5-Monooxygenase metabolism, Catalysis, Ferric Compounds chemistry, Ferric Compounds metabolism, Heme chemistry, Hydroxylation, Models, Chemical, Molecular Conformation, Proteins chemistry, Proteins metabolism, Protoporphyrins chemistry, Protoporphyrins metabolism, Pseudomonas putida, Substrate Specificity, Cytochrome P-450 Enzyme System chemistry, Cytochrome P-450 Enzyme System metabolism

Abstract

The substrate oxygenation mechanism by an ultimate species in monooxygenation by cytochrome P-450 (compound I) was investigated by the density functional theory method. An initial model compound was constructed from a structure obtained by 300-ps molecular dynamics simulation of compound I-formed P-450cam under physiologic conditions, and it consisted of porphine for protoporphyrin IX, S(-)-CH(3) for the side chain of Cys357 of the fifth ligand of heme, a methane molecule for the substrate, a heme iron, and an oxygen atom of the sixth ligand of heme. The results of the calculation revealed that the substrate oxygenation mechanism had four elementary processes, i.e., (1) formation of [FeOH](3+) and a substrate radical by hydrogen atom abstraction from the substrate caused by [FeO](3+), (2) rotation of the OH group of the sixth ligand of [FeOH](3+) produced by process 1, (3) substrate radical binding with the [FeOH](3+), and (4) elimination of the oxygenated substrate formed at the sixth ligand binding site. The rate-determining step is process 1, hydrogen atom abstraction from the substrate, and the activation energy was determined to be about 15 kcal/mol. For this reason, it is thought that this reaction occurs in vivo.

Published

2001

35. Absolute stereochemistry of amphidinolide C.

Author

Kubota T, Tsuda M, and Kobayashi J

Subjects

Animals, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Biological Products chemistry, Biological Products pharmacology, Dinoflagellida, Macrolides chemistry, Macrolides pharmacology, Magnetic Resonance Spectroscopy, Models, Molecular, Molecular Structure, Stereoisomerism, Structure-Activity Relationship, Tumor Cells, Cultured drug effects, Antineoplastic Agents chemical synthesis, Biological Products chemical synthesis, Macrolides chemical synthesis

Abstract

[structure in text] The absolute configurations at 12 chiral centers in amphidinolide C (1), a potent cytotoxic 25-membered macrolide isolated from a marine dinoflagellate Amphidinium sp., were determined to be 3S, 4R, 6R, 7R, 8R, 12R, 13S, 16S, 20R, 23R, 24R, and 29S by combination of NMR analyses, degradation experiments, and synthesis of the C-1-C-7 segment.

Published

2001

36. Amphidinolides T2, T3, and T4, new 19-membered macrolides from the dinoflagellate Amphidinium sp. and the biosynthesis of amphidinolide T1.

Author

Kobayashi J, Kubota T, Endo T, and Tsuda M

Subjects

Animals, Chromatography, High Pressure Liquid, Magnetic Resonance Spectroscopy, Oxidation-Reduction, Bridged Bicyclo Compounds, Heterocyclic chemistry, Dinoflagellida chemistry, Lactones chemistry, Macrolides chemistry

Abstract

Three new 19-membered macrolides, amphidinolides T2 (2), T3 (3), and T4 (4), structurally related to amphidinolide T1 (1) have been isolated from two strains of marine dinoflagellates of the genus Amphidinium. The structures of 2-4 were elucidated on the basis of spectroscopic data. The absolute configurations at C-7, C-8, and C-10 of 1-4 were determined by comparison of NMR data of their C-1-C-12 segments with those of synthetic model compounds for the tetrahydrofuran portion. The biosynthetic origins of amphidinolide T1 (1) were investigated on the basis of 13C NMR data of a 13C enriched sample obtained by feeding experiments with [1-(13)C], [2-(13)C], and [1,2-(13)C2] sodium acetates and 13C-labeled sodium bicarbonate in the cultures of the dinoflagellate. These incorporation patterns suggested that amphidinolide T1 (1) was generated from four successive polyketide chains, an isolated C1 unit formed from C-2 of acetates, and three unusual C2 units derived only from C-2 of acetates. Furthermore, it is noted that five oxygenated carbons of C-1, C-7, C-12, C-13, and C-18 were not derived from the C-1 carbonyl, but from the C-2 methyl of acetates.

Published

2001

37. Absolute stereochemistry of amphidinolides G and H.

Author

Kobayashi J, Shimbo K, Sato M, Shiro M, and Tsuda M

Subjects

Animals, Dinoflagellida chemistry, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Stereoisomerism, X-Ray Diffraction, Macrolides chemistry, Marine Toxins chemistry

Abstract

[structure: see text] Absolute stereochemistry of amphidinolides G (1) and H (2), potent cytotoxic 27- and 26-membered macrolides, respectively, isolated from a marine dinoflagellate Amphidinium sp., was determined by X-ray diffraction analysis, synthesis of a degradation product (3) of 2, and interconversion between 1 and 2.

Published

2000

38. Amphidinolide T, novel 19-membered macrolide from marine dinoflagellate Amphidinium sp.

Author

Tsuda M, Endo T, and Kobayashi J

Subjects

Animals, Bridged Bicyclo Compounds, Heterocyclic isolation & purification, Cytotoxins isolation & purification, Lactones isolation & purification, Macrolides isolation & purification, Magnetic Resonance Spectroscopy, Mass Spectrometry, Molecular Conformation, Molecular Structure, Bridged Bicyclo Compounds, Heterocyclic chemistry, Cytotoxins chemistry, Dinoflagellida chemistry, Lactones chemistry, Macrolides chemistry

Abstract

A novel 19-membered macrolide, amphidinolide T (1), has been isolated from a marine dinoflagellate Amphidinium sp., and the structure was elucidated on the basis of spectroscopic data. Relative stereochemistry at C-7, C-8, and C-10 was deduced from the NOESY correlations, while absolute configurations at C-2, C-13, C-14, and C-18 were assigned on the basis of NMR data of the MTPA esters of 1 and those of degradation products of 1.

Published

2000

39. Na(+)-glucose cotransporter (SGLT) inhibitors as antidiabetic agents. 4. Synthesis and pharmacological properties of 4'-dehydroxyphlorizin derivatives substituted on the B ring.

Author

Tsujihara K, Hongu M, Saito K, Kawanishi H, Kuriyama K, Matsumoto M, Oku A, Ueta K, Tsuda M, and Saito A

Subjects

Animals, Biotransformation, Blood Glucose analysis, Dogs, Glucose therapeutic use, Glycated Hemoglobin analysis, Haplorhini, Humans, Hypoglycemic Agents chemical synthesis, Hypoglycemic Agents therapeutic use, Male, Mice, Rats, Rats, Sprague-Dawley, Sodium-Glucose Transporter 1, Spectrum Analysis, Structure-Activity Relationship, Diabetes Mellitus, Type 2 drug therapy, Glucose chemical synthesis, Glucose pharmacology, Hypoglycemic Agents pharmacology, Membrane Glycoproteins antagonists & inhibitors, Monosaccharide Transport Proteins antagonists & inhibitors

Abstract

In our studies of Na(+)-glucose cotransporter (SGLT) inhibitors as antidiabetic agents, a series of novel 4'-dehydroxyphlorizin derivatives substituted on the B ring was prepared and their effects on urinary glucose excretion were evaluated in rats. Introduction of only a small alkyl group at the 4'-position increased the activity, and 3-(benzo¿bfuran-5-yl)-2',6'-dihydroxy-4'-methylpropiophenone 2'-O-beta-D-glucopyranoside (4) showed the most potent effect. To overcome hydrolysis of compound 4 by beta-glucosidase in the digestive tract, the OH groups on the glucose moiety of compound 4 were modified. Three prodrugs (5, 42, and 55) were more potent than the parent compound 4 by oral administration, and finally 3-(benzo¿bfuran-5-yl)-2',6'-dihydroxy-4'-methylpropiophenone 2'-O-(6-O-methoxycarbonyl-beta-D-glucopyranoside) (5) was selected as a new promising candidate. Compound 5 was metabolized mainly by liver esterase to the active form (4), which was about 10 times more potent than 5 in inhibiting SGLT. In oral glucose tolerance test in db/db mice, compound 5 dose-dependently suppressed the elevation of glucose levels. Single administration of 5 reduced hyperglycemia concurrently with increase of glucose excretion into urine in diabetic KK-A(y) mice. Furthermore, compound 5 suppressed the elevation of blood glucose levels but did not lower it below the normal level even in fasted conditions in KK-A(y) mice. Additionally, long-term treatment with 5 dose-dependently reduced hyperglycemia and HbA1c in KK-A(y) mice. These pharmacological data strongly suggest that compound 5 has a therapeutic potential in the treatment of NIDDM.

Published

1999

40. Colopsinol A, a Novel Polyhydroxyl Metabolite from Marine Dinoflagellate Amphidinium sp.

Author

Kobayashi J, Kubota T, Takahashi M, Ishibashi M, Tsuda M, and Naoki H

Abstract

Colopsinol A (1), a novel polyhydroxyl compound, has been isolated from the cultured marine dinoflagellate Amphidinium sp., from which a number of cytotoxic macrolides, amphidinolides, have been obtained to date, and the gross structure of 1 was elucidated on the basis of extensive spectroscopic analyses including recent 2D NMR techniques of CH(2)-selected editing HSQC as well as FABMS/MS experiments and chemical means. Colopsinol A (1), C(71)H(119)O(25)SNa, is the first member of a new class of polyketide natural products possessing a gentiobioside moiety and a sulfate ester. The polyketide aglycon consisted of a C(56)-linear aliphatic chain with one exo-methylene and two methyl branches as well as two ketones, five hydroxyl groups, and a tetrahydropyran and two epoxide rings.

Published

1999

41. Selective Oxidation of Vinyl Ethers and Silyl Enol Ethers with Hydrogen Peroxide Catalyzed by Peroxotungstophosphate.

Author

Yamamoto H, Tsuda M, Sakaguchi S, and Ishii Y

Abstract

The oxidation of vinyl and silyl enol ethers with aqueous hydrogen peroxide was first achieved by the use of peroxotungstophosphate (PCWP) as the catalyst. For example, the oxidation of 1-ethoxy-1-octene with a stoichiometric amount of 35% H(2)O(2) in the presence of PCWP (0.5 mol %) in a mixed solvent of methanol and dichloromethane at room temperature gave 1-ethoxy-1-methoxy-2-hydroxyoctane, a synthetic equivalent of 2-hydroxyoctanal, in 70% yield. The oxidation of acyclic silyl enol ethers such as 1-[(trimethylsilyl)oxy]-1-octene under these conditions gave 1-hydroxy-2-octanone in 72% yield, while the same oxidation in dichloromethane alone resulted in cleavage of the enol double bond to form heptanal in 71% yield. Cyclic silyl enol ethers were converted into the corresponding alpha-hydroxy ketones in 48-71% yields under similar reaction conditions.

Published

1997

42. Fiber-optic-based biomonitoring of benzene derivatives by recombinant E. coli bearing luciferase gene-fused TOL-plasmid immobilized on the fiber-optic end.

Author

Ikariyama Y, Nishiguchi S, Koyama T, Kobatake E, Aizawa M, Tsuda M, and Nakazawa T

Subjects

Cloning, Molecular, DNA-Binding Proteins genetics, Escherichia coli, Luminescent Measurements, Operon, Optical Fibers, Pseudomonas putida, Recombinant Fusion Proteins analysis, Trans-Activators genetics, Transcription Factors genetics, Bacterial Proteins, Benzene Derivatives analysis, Biosensing Techniques, Environmental Monitoring methods, Fiber Optic Technology methods, Luciferases genetics, Plasmids genetics

Abstract

TOL plasmid in Pseudomonas putida mt-2 has a series of genes for the degradation of xylene, toluene, and their derivatives to pyruvate and acetaldehyde (or propionaldehyde). Two operons, i.e., upper operon and meta operon, play indispensable roles for the digestion of xylene derivatives: When XyIR protein recognizes xylene derivatives, another controlling gene, xyIS, is activated, which results in the activation of meta operon. Therefore, we have constructed a fusion gene between TOL plasmid and the firefly luciferase gene under the control of XyIR and the promoter of xyIS gene; i.e., by using fusions of the meta operon with promotorless luciferase expression vector from firefly, we have constructed and tested biomonitors for benzene derivatives. Bioluminescence specified by Escherichia coli (pTSN316), carrying xyIR and xyIS promoters, Ampr and luc, was measured in either a benzene derivative-saturated or o-methylbenzyl alcohol-dissolved medium both in the case of cell suspension and in the case of immobilized cell form. The utility of the biosensing system for monitoring in chemical plant drainage was demonstrated with samples supplemented with benzene derivatives. The xyIR-xyIS promoter-lux fusion carried by pTSN316 responded to a benzene-related chemical in sample solutions. Immobilization of the transformed E. coli, at one end of fiber optic, bearing firefly luciferase gene fused to TOL plasmid, has been demonstrated to fabricate a luminescent remote biomonitoring device for the protection of environmental deterioration. Due to the luminescent detection, the detection limits for benzene-related aromatics that are recognized by a binding protein (XyIR) were parts-per-million. We had already submitted a preliminary report concerning the possibility of environmental monitoring based on the above idea by using the transformed E. coli in a cell-suspended solution. This paper describes mainly a fiber-optic-based biomonitoring device for the protection of environmental deterioration.

Published

1997

43. Structural dynamics of water and the peptide backbone around the Schiff base associated with the light-activated process of octopus rhodopsin.

Author

Nishimura S, Kandori H, Nakagawa M, Tsuda M, and Maeda A

Subjects

Animals, Cattle, Hydrogen Bonding, In Vitro Techniques, Molecular Structure, Octopodiformes, Peptides chemistry, Photochemistry, Rhodopsin analogs & derivatives, Schiff Bases chemistry, Spectroscopy, Fourier Transform Infrared, Temperature, Water chemistry, Rhodopsin chemistry, Rhodopsin radiation effects

Abstract

Difference Fourier transform infrared spectra were recorded for the formation of the photointermediates and isorhodopsin from octopus rhodopsin at low temperatures. Analysis was done for H bonding of the Schiff base, internal water molecules, and the peptide backbone. The imine hydrogen of the Schiff base was in the same H bonding state throughout the photointermediates and the unphotolyzed state. In contrast, H bonding of the hydrogen of the water molecule whose oxygen might be complexed with the imine hydrogen of the Schiff base was altered upon the formation of bathorhodopsin. The same water molecule was in a different H bonding state in the subsequent intermediates, lumirhodopsin and mesorhodopsin. These intermediates were also characterized by a decrease in the C = N bond order of the Schiff base as a reflection of distorted structure around the Schiff base. The polar N-H bond in these intermediates could be also ascribed to the Schiff base. Some changes in H bonding of water and the perturbation of the polyene chain in lumirhodopsin and mesorhodopsin were also observed in isorhodopsin. Acid metarhodopsin exhibited extensive changes in the H bonding states of the peptide backbone and internal water molecules. A large part of these changes was extinguished in alkaline metarhodopsin with the unprotonated Schiff base, suggesting interaction of the protonated Schiff base with the peptide backbone and intramembrane water molecules in acid metarhodopsin.

Published

1997

44. Simple purification and functional reconstitution of octopus photoreceptor Gq, which couples rhodopsin to phospholipase C.

Author

Kikkawa S, Tominaga K, Nakagawa M, Iwasa T, and Tsuda M

Subjects

Aluminum Compounds pharmacology, Amino Acid Sequence, Animals, Brain enzymology, Cattle, Enzyme Activation drug effects, Fluorides pharmacology, GTP-Binding Proteins classification, GTP-Binding Proteins isolation & purification, GTP-Binding Proteins metabolism, Guanosine Triphosphate metabolism, Light, Liposomes metabolism, Molecular Sequence Data, Octopodiformes, Protein Binding, Protein Conformation, Sequence Analysis, Sequence Homology, Amino Acid, GTP-Binding Proteins chemistry, Photoreceptor Cells, Invertebrate metabolism, Rhodopsin metabolism, Type C Phospholipases metabolism

Abstract

In invertebrate photoreceptors, illuminated rhodopsin activates multiple G proteins, which are assumed to initiate multiple phototransduction cascades. In this paper, we focused on one of the phototransduction cascades, which utilizes rhodopsin, a Gq-like G protein, and phospholipase C (PLC). A Gq-like G protein from octopus photoreceptors was successfully purified to apparent homogeneity as an active form by simple two-step chromatography. The purified G protein had an alpha beta gamma-trimeric structure consisting of 44-kDa alpha, 37-kDa beta, and 9-kDa gamma subunits. The 44-kDa alpha subunit was assigned to the Gq class by western blot with antiserum against mammalian Gq alpha and by partial amino acid sequencing of its proteolytic fragments. Light-dependent binding of GTP gamma S was observed when the purified octopus Gq was reconstituted with octopus rhodopsin that had been integrated into phospholipid vesicles. Octopus Gq activated PLC beta 1 purified from bovine brain dose-dependently in the presence of A1F4-. Finally, light- and GTP-dependent activation of PLC beta 1 was observed in a reconstitution system consisting of octopus rhodopsin, Gq, and bovine PLC beta 1.

Published

1996

45. A resonance Raman study of the C=N configurations of octopus rhodopsin, bathorhodopsin, and isorhodopsin.

Author

Huang L, Deng H, Weng G, Koutalos Y, Ebrey T, Groesbeek M, Lugtenburg J, Tsuda M, and Callender RH

Subjects

Animals, Carbon chemistry, Cattle, Nitrogen chemistry, Octopodiformes, Schiff Bases chemistry, Spectrum Analysis, Raman, Rhodopsin analogs & derivatives, Rhodopsin chemistry

Abstract

The resonance Raman spectra of octopus rhodopsin, bathorhodopsin, and isorhodopsin at 120 K have been obtained as well as those of pigments regenerated with isotopically labeled retinals near the C14-C15 bond. Deuteration of the Schiff base nitrogen induces relatively large changes in the C-C stretch region between 1100 and 1300 cm-1, including a large frequency shift of the C14-C15 stretch mode located at 1206-1227 cm-1 in the three octopus species, as revealed by the Raman spectra of their 14,15-(13)C2 derivatives. Such results are different compared to those of the bovine pigments, in which no significant frequency shift of the C14-C15 stretch mode was observed upon Schiff base N deuteration. In an earlier Raman study of a Schiff base model compound which contained only one single bond adjacent to two double bonds, we have found that the stretch mode of this C-C single bond at 1232 cm-1 shifts up by 15 cm-1 and its intensity is also greatly reduced upon Schiff base N deuteration when the C=N configuration is anti [Deng et al., (1994) J. Phys. Chem. 98, 4776-4779]. The same study has also shown that when the C=N configuration is syn, the C-C stretch mode should be at about 1150 cm-1. Since the C14-C15 stretch mode frequency is relatively high in the spectra of octopus rhodopsin and bathorhodopsin (> 1200 cm-1) and since the normal mode pattern near the Schiff base is similar to the model, we suggest that the C=N configuration in these two species is anti. The different responses of the C14-C15 stretch mode to the Schiff base nitrogen deuteration in bovine and octopus pigments are due to the fact that the coupled C14-C15 stretch and the C12-C13 stretch motions in the model compound or in bovine rhodopsin are altered in octopus rhodopsin so that the stretch motion of the C14-15 bond is more localized, similar to the C-C stretch motion in the small Schiff base model compound. In clear contrast with the bovine rhodopsin Raman spectrum, which is very similar to that for the 11-cis-retinal Schiff base, the drastically different octopus rhodopsin spectrum indicates large protein perturbations on the C11=C12-C13 moiety, either by steric or by electrostatic interactions. Further studies are required to determine if such spectral differences indicate a difference of the energy conversion mechanism in the primary photochemical event of these two pigments.

Published

1996

46. Resonance Raman studies of the HOOP modes in octopus bathorhodopsin with deuterium-labeled retinal chromophores.

Author

Deng H, Manor D, Weng G, Rath P, Koutalos Y, Ebrey T, Gebhard R, Lugtenburg J, Tsuda M, and Callender RH

Subjects

Animals, Cattle, Deuterium, Hydrogen chemistry, Octopodiformes, Rhodopsin chemistry, Spectrum Analysis, Raman, Thermodynamics, Vibration, Rhodopsin analogs & derivatives

Abstract

Resonance Raman spectra of the hydrogen out-of-plane (HOOP) vibrational modes in the retinal chromophore of octopus bathorhodopsin with deuterium label(s) along the polyene chain have been obtained. In clear contrast with bovine bathorhodopsin's HOOP modes, there are only two major HOOP bands at 887 and 940 cm-1 for octopus bathorhodopsin. On the basis of their isotopic shifts upon deuterium labeling, we have assigned the band at 887 cm-1 to C10H and C14H HOOP modes, and the band at 940 cm-1 to C11H = C12H Au-like HOOP mode. Except for a 26 cm-1 downward shift, the C11H = C12H Au-like wag appears to be little disturbed in octopus bathorhodopsin from the chromophore in solution since its changes upon deuterium labeling are close to those found in solution model-compound studies. We found also that the C10H and C14H HOOP wags are also similar to those in the model-compound studies. However, we have found that the interaction between the C7H and C8H HOOP internal coordinates of the chromophore in octopus bathorhodopsin is different from that of the chromophore in solution. The intensity of the C11H = C12H and the other HOOP modes suggests that the chromophore of octopus bathorhodopsin is somewhat torsionally distorted from a planar trans geometry. Importantly, a twist about C11 = C12 double bond is inferred. Such a twist breaks the local symmetry, resulting in the observation of the normally Raman-forbidden C11H = C12H Au-like HOOP mode. The twisted nature of the chromophore, semiquantitatively discussed here, likely affects the lambda max of the chromophore and its enthalpy.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1991

47. Protein-phospholipid-cholesterol interaction in the photolysis of invertebrate rhodopsin.

Author

Kusumi A, Tsuda M, Akino T, Ohnishi S, and Terayama Y

Subjects

Electron Spin Resonance Spectroscopy, Kinetics, Photolysis, Temperature, Cholesterol metabolism, Phospholipids metabolism, Proteins metabolism, Retinal Pigments metabolism, Rhodopsin metabolism

Published

1983

48. Resonance Raman spectroscopy of octopus rhodopsin and its photoproducts.

Author

Pande C, Pande A, Yue KT, Callender R, Ebrey TG, and Tsuda M

Subjects

Animals, Cattle, Octopodiformes, Photolysis, Rhodopsin analogs & derivatives, Spectrum Analysis, Raman methods, Structure-Activity Relationship, Retinal Pigments metabolism, Rhodopsin metabolism

Abstract

We report here the resonance Raman spectra of octopus rhodopsin and its photoproducts, bathorhodopsin and acid metarhodopsin. These studies were undertaken in order to make comparisons with the well-studied bovine pigments, so as to understand the similarities and the differences in pigment structure and photochemical processes between vertebrates and invertebrates. The flow method was used to obtain the Raman spectrum of rhodopsin at 13 degrees C. The bathorhodopsin spectrum was obtained by computer subtraction of the spectra containing different photostationary mixtures of rhodopsin, isorhodopsin, hypsorhodopsin, and bathorhodopsin, obtained at 12 K using the pump-probe technique and from measurements at 80 K. Like their bovine counterparts, the Schiff base vibrational mode appears at approximately 1660 cm-1 in octopus rhodopsin and the photoproducts, bathorhodopsin and acid metarhodopsin, suggesting a protonated Schiff base linkage between the chromophore and the protein. Differences between the Raman spectra of octopus rhodopsin and bathorhodopsin indicate that the formation of bathorhodopsin is associated with chromophore isomerization. This inference is substantiated by the chromophore chemical extraction data which show that, like the bovine system, octopus rhodopsin is an 11-cis pigment, while the photoproducts contain an all-trans pigment, in agreement with previous work. The octopus rhodopsin and bathorhodopsin spectra show marked differences from their bovine counterparts in other respects, however. The differences are most dramatic in the structure-sensitive fingerprint and the HOOP regions. Thus, it appears that although the two species differ in the specific nature of the chromophore-protein interactions, the general process of visual transduction is the same.

Published

1987

49. Regeneration of bovine and octopus opsins in situ with natural and artificial retinals.

Author

Koutalos Y, Ebrey TG, Tsuda M, Odashima K, Lien T, Park MH, Shimizu N, Derguini F, Nakanishi K, and Gilson HR

Subjects

Animals, Cattle, Kinetics, Octopodiformes, Retinaldehyde analogs & derivatives, Retinaldehyde chemical synthesis, Rod Cell Outer Segment metabolism, Rod Opsins, Spectrophotometry methods, Structure-Activity Relationship, Eye Proteins metabolism, Retinal Pigments metabolism, Retinaldehyde metabolism, Retinoids metabolism, Rhodopsin metabolism

Abstract

We consider the problem of color regulation in visual pigments for both bovine rhodopsin (lambda max = 500 nm) and octopus rhodopsin (lambda max = 475 nm). Both pigments have 11-cis-retinal (lambda max = 379 nm, in ethanol) as their chromophore. These rhodopsins were bleached in their native membranes, and the opsins were regenerated with natural and artificial chromophores. Both bovine and octopus opsins were regenerated with the 9-cis- and 11-cis-retinal isomers, but the octopus opsin was additionally regenerated with the 13-cis and all-trans isomers. Titration of the octopus opsin with 11-cis-retinal gave an extinction coefficient for octopus rhodopsin of 27,000 +/- 3000 M-1 cm-1 at 475 nm. The absorption maxima of bovine artificial pigments formed by regenerating opsin with the 11-cis dihydro series of chromophores support a color regulation model for bovine rhodopsin in which the chromophore-binding site of the protein has two negative charges: one directly hydrogen bonded to the Schiff base nitrogen and another near carbon-13. Formation of octopus artificial pigments with both all-trans and 11-cis dihydro chromophores leads to a similar model for octopus rhodopsin and metarhodopsin: there are two negative charges in the chromophore-binding site, one directly hydrogen bonded to the Schiff base nitrogen and a second near carbon-13. The interaction of this second charge with the chromophore in octopus rhodopsin is weaker than in bovine, while in metarhodopsin it is as strong as in bovine.

Published

1989

50. A comparative study of the infrared difference spectra for octopus and bovine rhodopsins and their bathorhodopsin photointermediates.

Author

Bagley KA, Eisenstein L, Ebrey TG, and Tsuda M

Subjects

Amino Acids, Animals, Cattle, Octopodiformes, Photochemistry, Species Specificity, Spectrophotometry, Infrared, Retinal Pigments, Rhodopsin analogs & derivatives

Abstract

Fourier-transform infrared difference spectroscopy has been used to detect the vibrational modes in the chromophore and protein that change in position and intensity between octopus rhodopsin and its photoproducts formed at low temperature (85 K), bathorhodopsin and isorhodopsin. The infrared difference spectra between octopus rhodopsin and octopus bathorhodopsin, octopus bathorhodopsin and octopus isorhodopsin, and octopus isorhodopsin and octopus rhodopsin are compared to analogous difference spectra for the well-studied bovine pigments, in order to understand the similarities in pigment structure and photochemical processes between the vertebrate and invertebrate systems. The structure-sensitive fingerprint region of the infrared spectra for octopus bathorhodopsin shows strong similarities to spectra of both all-trans-retinal and bovine bathorhodopsin, thus confirming chemical extraction data that suggest that octopus bathorhodopsin contains an all-trans-retinal chromophore. In contrast, we find dramatic differences in the hydrogen out-of-plane modes of the two bathorhodopsins, and in the fingerprint lines of the rhodopsins and isorhodopsins for the two pigments. These observations suggest that while the primary effect of light in the octopus rhodopsin system, as in the bovine rhodopsin system, is 11-cis/11-trans isomerization, the protein-chromophore interactions for the two systems are quite different. Finally, striking similarities and differences in infrared lines attributable to changes in amino acid residues in the opsin are found between the two pigment systems. They suggest that no carboxylic acid or tyrosine residues are affected in the initial changes of light-energy transduction in octopus rhodopsin. Comparing the amino acid sequences for octopus and bovine pigments also allows us to suggest that the carboxylic acid residues altered in the bovine transitions are Glu-122 and/or Glu-134.

Published

1989