Your search keyword '"Toyoda, Yu"' showing total 9 results

1. Regulation of Urate Homeostasis by Membrane Transporters.

Author

Takada, Tappei, Miyata, Hiroshi, Toyoda, Yu, Nakayama, Akiyoshi, Ichida, Kimiyoshi, and Matsuo, Hirotaka

Subjects

ORGANIC anion transporters, MEMBRANE transport proteins, URATES, ATP-binding cassette transporters, HOMEOSTASIS, CARRIER proteins, GLUCOSE transporters

Abstract

Uric acid is the final purine metabolite in humans. Serum urate levels are regulated by a balance between urate production, mainly in the liver, and its excretion via the kidneys and small intestine. Given that uric acid exists as a urate anion at physiological pH 7.4, membrane transporters are required to regulate urate homeostasis. In the kidney, urate transporter 1, glucose transporter 9, and organic anion transporter 10 contribute to urate reabsorption, whereas sodium-dependent phosphate transport protein 1 would be involved in urate excretion. Other transporters have been suggested to be involved in urate handling in the kidney; however, further evidence is required in humans. ATP-binding cassette transporter G2 (ABCG2) is another urate transporter, and its physiological role as a urate exporter is highly demonstrated in the intestine. In addition to urate, ABCG2 regulates the behavior of endogenous substances and drugs; therefore, the functional inhibition of ABCG2 has physiological and pharmacological effects. Although these transporters explain a large part of the urate regulation system, they are not sufficient for understanding the whole picture of urate homeostasis. Therefore, numerous studies have been conducted to find novel urate transporters. This review provides the latest evidence of urate transporters from pathophysiological and clinical pharmacological perspectives. [ABSTRACT FROM AUTHOR]

Published

2024

2. Dysuricemia.

Author

Nakayama, Akiyoshi, Kurajoh, Masafumi, Toyoda, Yu, Takada, Tappei, Ichida, Kimiyoshi, and Matsuo, Hirotaka

Subjects

CHRONIC kidney failure, URIC acid, ACUTE kidney failure, REACTIVE oxygen species, CARDIOVASCULAR diseases, XANTHINE

Abstract

Gout results from elevated serum urate (SU) levels, or hyperuricemia, and is a globally widespread and increasingly burdensome disease. Recent studies have illuminated the pathophysiology of gout/hyperuricemia and its epidemiology, diagnosis, treatment, and complications. The genetic involvement of urate transporters and enzymes is also proven. URAT1, a molecular therapeutic target for gout/hyperuricemia, was initially derived from research into hereditary renal hypouricemia (RHUC). RHUC is often accompanied by complications such as exercise-induced acute kidney injury, which indicates the key physiological role of uric acid. Several studies have also revealed its physiological role as both an anti-oxidant and a pro-oxidant, acting as both a scavenger and a generator of reactive oxygen species (ROSs). These discoveries have prompted research interest in SU and xanthine oxidoreductase (XOR), an enzyme that produces both urate and ROSs, as status or progression biomarkers of chronic kidney disease and cardiovascular disease. The notion of "the lower, the better" is therefore incorrect; a better understanding of uric acid handling and metabolism/transport comes from an awareness that excessively high and low levels both cause problems. We summarize here the current body of evidence, demonstrate that uric acid is much more than a metabolic waste product, and finally propose the novel disease concept of "dysuricemia" on the path toward "normouricemia", or optimal SU level, to take advantage of the dual roles of uric acid. Our proposal should help to interpret the spectrum from hypouricemia to hyperuricemia/gout as a single disease category. [ABSTRACT FROM AUTHOR]

Published

2023

3. A Proposal for Practical Diagnosis of Renal Hypouricemia : Evidenced from Genetic Studies of Nonfunctional Variants of URAT1/SLC22A12 among 30,685 Japanese Individuals

Author

Kawamura, Yusuke, Nakayama, Akiyoshi, Shimizu, Seiko, Toyoda, Yu, Nishida, Yuichiro, Hishida, Asahi, Katsuura-Kamano, Sakurako, Shibuya, Kenichi, Tamura, Takashi, Kawaguchi, Makoto, Suzuki, Satoko, Iwasawa, Satoko, Nakashima, Hiroshi, Ibusuki, Rie, Uemura, Hirokazu, Hara, Megumi, Takeuchi, Kenji, Takada, Tappei, Tsunoda, Masashi, Arisawa, Kokichi, Takezaki, Toshiro, Tanaka, Keitaro, Ichida, Kimiyoshi, Wakai, Kenji, Shinomiya, Nariyoshi, Matsuo, Hirotaka, Kawamura, Yusuke, Nakayama, Akiyoshi, Shimizu, Seiko, Toyoda, Yu, Nishida, Yuichiro, Hishida, Asahi, Katsuura-Kamano, Sakurako, Shibuya, Kenichi, Tamura, Takashi, Kawaguchi, Makoto, Suzuki, Satoko, Iwasawa, Satoko, Nakashima, Hiroshi, Ibusuki, Rie, Uemura, Hirokazu, Hara, Megumi, Takeuchi, Kenji, Takada, Tappei, Tsunoda, Masashi, Arisawa, Kokichi, Takezaki, Toshiro, Tanaka, Keitaro, Ichida, Kimiyoshi, Wakai, Kenji, Shinomiya, Nariyoshi, and Matsuo, Hirotaka

Abstract

Background: Renal hypouricemia (RHUC) is characterized by a low serum uric acid (SUA) level and high fractional excretion of uric acid (FEUA). Further studies on FEUA in hypouricemic individuals are needed for a more accurate diagnosis of RHUC. Methods: In 30,685 Japanese health-examination participants, we genotyped the two most common nonfunctional variants of URAT1 (NFV-URAT1), W258X (rs121907892) and R90H (rs121907896), in 1040 hypouricemic individuals (SUA ≤ 3.0 mg/dL) and 2240 individuals with FEUA data. The effects of NFV-URAT1 on FEUA and SUA were also investigated using linear and multiple regression analyses. Results: Frequency of hypouricemic individuals (SUA ≤ 3.0 mg/dL) was 0.97% (male) and 6.94% (female) among 30,685 participants. High frequencies of those having at least one allele of NFV-URAT1 were observed in 1040 hypouricemic individuals. Furthermore, NFV-URAT1 significantly increased FEUA and decreased SUA, enabling FEUA and SUA levels to be estimated. Conversely, FEUA and SUA data of hypouricemic individuals are revealed to be useful to predict the number of NFV-URAT1. Conclusions: Our findings reveal that specific patterns of FEUA and SUA data assist with predicting the number of nonfunctional variants of causative genes for RHUC, and can also be useful for practical diagnosis of RHUC even before genetic tests.

Published

2021

4. Identification of Inhibitory Activities of Dietary Flavonoids against URAT1, a Renal Urate Re-Absorber: In Vitro Screening and Fractional Approach Focused on Rooibos Leaves.

Author

Toyoda, Yu, Takada, Tappei, Saito, Hiroki, Hirata, Hiroshi, Ota-Kontani, Ami, Tsuchiya, Youichi, and Suzuki, Hiroshi

Abstract

Hyperuricemia, a lifestyle-related disease characterized by elevated serum urate levels, is the main risk factor for gout; therefore, the serum urate-lowering effects of human diets or dietary ingredients have attracted widespread interest. As Urate transporter 1 (URAT1) governs most urate reabsorption from primary urine into blood, URAT1 inhibition helps decrease serum urate levels by increasing the net renal urate excretion. In this study, we used a cell-based urate transport assay to investigate the URAT1-inhibitory effects of 162 extracts of plant materials consumed by humans. Among these, we focused on Aspalathus linearis, the source of rooibos tea, to explore its active ingredients. Using liquid–liquid extraction with subsequent column chromatography, as well as spectrometric analyses for chemical characterization, we identified quercetin as a URAT1 inhibitor. We also investigated the URAT1-inhibitory activities of 23 dietary ingredients including nine flavanols, two flavanonols, two flavones, two isoflavonoids, eight chalcones, and a coumarin. Among the tested authentic chemicals, fisetin and quercetin showed the strongest and second-strongest URAT1-inhibitory activities, with IC50 values of 7.5 and 12.6 μM, respectively. Although these effects of phytochemicals should be investigated further in human studies, our findings may provide new clues for using nutraceuticals to promote health. [ABSTRACT FROM AUTHOR]

Published

2022

5. Identification of Two Dysfunctional Variants in the ABCG2 Urate Transporter Associated with Pediatric-Onset of Familial Hyperuricemia and Early-Onset Gout.

Author

Toyoda, Yu, Pavelcová, Kateřina, Bohatá, Jana, Ješina, Pavel, Kubota, Yu, Suzuki, Hiroshi, Takada, Tappei, Stiburkova, Blanka, and Falguières, Thomas

Subjects

*GOUT, *HYPERURICEMIA, *URIC acid, *CHILD patients, *DIAGNOSIS, *PHENOTYPES

Abstract

The ABCG2 gene is a well-established hyperuricemia/gout risk locus encoding a urate transporter that plays a crucial role in renal and intestinal urate excretion. Hitherto, p.Q141K—a common variant of ABCG2 exhibiting approximately one half the cellular function compared to the wild-type—has been reportedly associated with early-onset gout in some populations. However, compared with adult-onset gout, little clinical information is available regarding the association of other uricemia-associated genetic variations with early-onset gout; the latent involvement of ABCG2 in the development of this disease requires further evidence. We describe a representative case of familial pediatric-onset hyperuricemia and early-onset gout associated with a dysfunctional ABCG2, i.e., a clinical history of three generations of one Czech family with biochemical and molecular genetic findings. Hyperuricemia was defined as serum uric acid (SUA) concentrations 420 μmol/L for men or 360 μmol/L for women and children under 15 years on two measurements, performed at least four weeks apart. The proband was a 12-year-old girl of Roma ethnicity, whose SUA concentrations were 397–405 µmol/L. Sequencing analyses focusing on the coding region of ABCG2 identified two rare mutations—c.393G>T (p.M131I) and c.706C>T (p.R236X). Segregation analysis revealed a plausible link between these mutations and hyperuricemia and the gout phenotype in family relatives. Functional studies revealed that p.M131I and p.R236X were functionally deficient and null, respectively. Our findings illustrate why genetic factors affecting ABCG2 function should be routinely considered in clinical practice as part of a hyperuricemia/gout diagnosis, especially in pediatric-onset patients with a strong family history. [ABSTRACT FROM AUTHOR]

Published

2021

6. Soy Isoflavone Genistein Inhibits an Axillary Osmidrosis Risk Factor ABCC11: In Vitro Screening and Fractional Approach for ABCC11-Inhibitory Activities in Plant Extracts and Dietary Flavonoids.

Author

Saito, Hiroki, Toyoda, Yu, Hirata, Hiroshi, Ota-Kontani, Ami, Tsuchiya, Youichi, Takada, Tappei, and Suzuki, Hiroshi

Abstract

Axillary osmidrosis (AO) is a common chronic skin condition characterized by unpleasant body odors emanating from the armpits, and its aetiology is not fully understood. AO can seriously impair the psychosocial well-being of the affected individuals; however, no causal therapy has been established for it other than surgical treatment. Recent studies have revealed that human ATP-binding cassette transporter C11 (ABCC11) is an AO risk factor when it is expressed in the axillary apocrine glands—the sources of the offensive odors. Hence, identifying safe ways to inhibit ABCC11 may offer a breakthrough in treating AO. We herein screened for ABCC11-inhibitory activities in 34 natural products derived from plants cultivated for human consumption using an in vitro assay system to measure the ABCC11-mediated transport of radiolabeled dehydroepiandrosterone sulfate (DHEA-S—an ABCC11 substrate). The water extract of soybean (Glycine max) was found to exhibit the strongest transport inhibition. From this extract, via a fractionation approach, we successfully isolated and identified genistein, a soy isoflavone, as a novel ABCC11 inhibitor with a half-maximal inhibitory concentration value of 61.5 μM. Furthermore, we examined the effects of other dietary flavonoids on the ABCC11-mediated DHEA-S transport to uncover the effects of these phytochemicals on ABCC11 function. While further human studies are needed, our findings here about the natural compounds will help develop a non-surgical therapy for AO. [ABSTRACT FROM AUTHOR]

Published

2020

7. Omega-3 Polyunsaturated Fatty Acids Inhibit the Function of Human URAT1, a Renal Urate Re-absorber.

Author

Saito, Hiroki, Toyoda, Yu, Takada, Tappei, Hirata, Hiroshi, Ota-Kontani, Ami, Miyata, Hiroshi, Kobayashi, Naoyuki, Tsuchiya, Youichi, and Suzuki, Hiroshi

Abstract

The beneficial effects of fatty acids (FAs) on human health have attracted widespread interest. However, little is known about the impact of FAs on the handling of urate, the end-product of human purine metabolism, in the body. Increased serum urate levels occur in hyperuricemia, a disease that can lead to gout. In humans, urate filtered by the glomerulus of the kidney is majorly re-absorbed from primary urine into the blood via the urate transporter 1 (URAT1)-mediated pathway. URAT1 inhibition, thus, contributes to decreasing serum urate concentration by increasing net renal urate excretion. Here, we investigated the URAT1-inhibitory effects of 25 FAs that are commonly contained in foods or produced in the body. For this purpose, we conducted an in vitro transport assay using cells transiently expressing URAT1. Our results showed that unsaturated FAs, especially long-chain unsaturated FAs, inhibited URAT1 more strongly than saturated FAs. Among the tested unsaturated FAs, eicosapentaenoic acid, α-linolenic acid, and docosahexaenoic acid exhibited substantial URAT1-inhibitory activities, with half maximal inhibitory concentration values of 6.0, 14.2, and 15.2 μM, respectively. Although further studies are required to investigate whether the ω-3 polyunsaturated FAs can be employed as uricosuric agents, our findings further confirm FAs as nutritionally important substances influencing human health. [ABSTRACT FROM AUTHOR]

Published

2020

8. Functional Characterization of Clinically-Relevant Rare Variants in ABCG2 Identified in a Gout and Hyperuricemia Cohort.

Author

Toyoda, Yu, Mančíková, Andrea, Krylov, Vladimír, Morimoto, Keito, Pavelcová, Kateřina, Bohatá, Jana, Pavelka, Karel, Pavlíková, Markéta, Suzuki, Hiroshi, Matsuo, Hirotaka, Takada, Tappei, and Stiburkova, Blanka

Subjects

*GOUT, *HYPERURICEMIA, *CELL membranes, *FUNCTIONAL analysis, *DISEASE risk factors

Abstract

ATP-binding cassette subfamily G member 2 (ABCG2) is a physiologically important urate transporter. Accumulating evidence demonstrates that congenital dysfunction of ABCG2 is an important genetic risk factor in gout and hyperuricemia; recent studies suggest the clinical significance of both common and rare variants of ABCG2. However, the effects of rare variants of ABCG2 on the risk of such diseases are not fully understood. Here, using a cohort of 250 Czech individuals of European descent (68 primary hyperuricemia patients and 182 primary gout patients), we examined exonic non-synonymous variants of ABCG2. Based on the results of direct sequencing and database information, we experimentally characterized nine rare variants of ABCG2: R147W (rs372192400), T153M (rs753759474), F373C (rs752626614), T421A (rs199854112), T434M (rs769734146), S476P (not annotated), S572R (rs200894058), D620N (rs34783571), and a three-base deletion K360del (rs750972998). Functional analyses of these rare variants revealed a deficiency in the plasma membrane localization of R147W and S572R, lower levels of cellular proteins of T153M and F373C, and null urate uptake function of T434M and S476P. Accordingly, we newly identified six rare variants of ABCG2 that showed lower or null function. Our findings contribute to deepening the understanding of ABCG2-related gout/hyperuricemia risk and the biochemical characteristics of the ABCG2 protein. [ABSTRACT FROM AUTHOR]

Published

2019

9. Clinical and Molecular Evidence of ABCC11 Protein Expression in Axillary Apocrine Glands of Patients with Axillary Osmidrosis.

Author

Toyoda Y, Takada T, Gomi T, Nakagawa H, Ishikawa T, and Suzuki H

Subjects

ATP-Binding Cassette Transporters genetics, Animals, Disease Models, Animal, Gene Expression, Genotype, Humans, Male, Mice, Mice, Transgenic, Polymorphism, Single Nucleotide, Sweat Gland Diseases genetics, ATP-Binding Cassette Transporters metabolism, Apocrine Glands metabolism, Axilla, Sweat Gland Diseases metabolism

Abstract

Accumulating evidence suggests that the risk of axillary osmidrosis is governed by a non-synonymous single nucleotide polymorphism (SNP) 538G>A in human ATP-binding cassette C11 ( ABCC11 ) gene. However, little data are available for the expression of ABCC11 protein in human axillary apocrine glands that produce apocrine sweat-a source of odor from the armpits. To determine the effect of the non-synonymous SNP ABCC11 538G>A (G180R) on the ABCC11 in vivo, we generated transiently ABCC11-expressing transgenic mice with adenovirus vector, and examined the protein levels of each ABCC11 in the mice with immunoblotting using an anti-ABCC11 antibody we have generated in the present study. Furthermore, we examined the expression of ABCC11 protein in human axillary apocrine glands extracted from axillary osmidrosis patients carrying each ABCC11 genotype: 538GG, GA, and AA. Analyses of transiently ABCC11-expressing transgenic mice showed that ABCC11 538G>A diminishes the ABCC11 protein levels in vivo. Consistently, ABCC11 protein was detected in the human axillary apocrine glands of the 538GG homozygote or 538GA heterozygote, not in the 538AA homozygote. These findings would contribute to a better understanding of the molecular basis of axillary osmidrosis.

Published

2017