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Development and nationwide validation of kidney graft injury markers using urinary exosomes and microvesicles (complete English translation of the Japanese version).
Harada, Hiroshi; Fukuzawa, Nobuyuki; Abe, Toyofumi; Imamura, Ryoichi; Masaki, Noriyuki; Fujiyama, Nobuhiro; Sato, Shigeru; Hatakeyama, Shingo; Nishimura, Kenji; Kishikawa, Hidefumi; Iwami, Daiki; Hotta, Kiyohiko; Miura, Masayoshi; Ide, Kentaro; Nakamura, Michio; Kosoku, Akihiro; Uchida, Junji; Murakami, Taku; Tsuji, Takahiro.
Affiliation
  • Harada H; Department of Kidney Transplant Surgery, Sapporo City General Hospital, 1-1 Kita 11-jo Nishi 13-chome, Chuou- ku, Sapporo, Hokkaido, 060-8604, Japan. hirohara80@mac.com.
  • Fukuzawa N; Harada Urological Clinic, 4F Hokuyaku Bldg., 1-1 Kita 11-jo Nishi 14-chome, Chuou-ku, Sapporo, Hokkaido, 060-0011, Japan. hirohara80@mac.com.
  • Abe T; Department of Kidney Transplant Surgery, Sapporo City General Hospital, 1-1 Kita 11-jo Nishi 13-chome, Chuou- ku, Sapporo, Hokkaido, 060-8604, Japan.
  • Imamura R; Department of Urology, Graduate School of Medicine, Faculty of Medicine, Osaka University, 1 Machikaneyama- cho, Toyonaka, Osaka, 560-0043, Japan.
  • Masaki N; Department of Urology, Graduate School of Medicine, Faculty of Medicine, Osaka University, 1 Machikaneyama- cho, Toyonaka, Osaka, 560-0043, Japan.
  • Fujiyama N; Department of Kidney Surgery, Tokyo Women's Medical University, 8-1 Kawada-cho, Shinjuku-ku, Tokyo, 162- 8666, Japan.
  • Sato S; Department of Center for Kidney Disease and Transplantation, Akita University Hospital, 44-2 Hiroomote Azahasunuma, Akita, Akita, 010-8543, Japan.
  • Hatakeyama S; Department of Center for Kidney Disease and Transplantation, Akita University Hospital, 44-2 Hiroomote Azahasunuma, Akita, Akita, 010-8543, Japan.
  • Nishimura K; Department of Urology, Hirosaki University Graduate School of Medicine, 5 Zaifu-cho, Hirosaki, Aomori, 036-8562, Japan.
  • Kishikawa H; Department of Urology, Hyogo Prefectural Nishinomiya Hospital, 13-9 Rokutanji-cho, Nishinomiya, Hyogo, Japan.
  • Iwami D; Department of Urology, Hyogo Prefectural Nishinomiya Hospital, 13-9 Rokutanji-cho, Nishinomiya, Hyogo, Japan.
  • Hotta K; Division of Renal Surgery and Transplantation, Department of Urology, Jichi Medical University, 3311-1, Yakushiji, Shimotsuke, Tochigi, 329-0498, Japan.
  • Miura M; Department of Renal and Genitourinary Surgery, Graduate School of Medicine, Hokkaido University, Kita 15-jo Nishi 7-chome, Kita-ku, Sapporo, Hokkaido, 060-8638, Japan.
  • Ide K; Department of Kidney Transplant Surgery, Sapporo Hokuyu Hospital, 5-1 Higashi-sapporo 6-jo 6-chome, Shiroishi- ku, Sapporo, Hokkaido, 003-0006, Japan.
  • Nakamura M; Department of Gastroenterological and Transplant Surgery, Graduate School of Biochemical and Health Sciences, Hiroshima University, 1-2-3 Kasumi, Minami-ku, Hiroshima, 734-8553, Japan.
  • Kosoku A; Department of Transplant Surgery, Tokai University School of Medicine, 143 Shimokasuya, Isehara, Kanagawa, 259-1193, Japan.
  • Uchida J; Department of Urology, Osaka Metropolitan University Graduate School of Medicine, 1-4-3, Asahi-Machi, Abeno-ku, Osaka, Osaka, 545- 8585, Japan.
  • Murakami T; Department of Urology, Osaka Metropolitan University Graduate School of Medicine, 1-4-3, Asahi-Machi, Abeno-ku, Osaka, Osaka, 545- 8585, Japan.
  • Tsuji T; R&D Center, Hitachi Chemical Co. America, Ltd. 1003 Health Sciences Road, Irvine, CA, 92617, USA.
BMC Nephrol ; 24(1): 158, 2023 06 06.
Article in En | MEDLINE | ID: mdl-37280521
ABSTRACT

BACKGROUND:

Non-invasive, prompt, and proper detection tools for kidney graft injuries (KGIs) are awaited to ensure graft longevity. We screened diagnostic biomarkers for KGIs following kidney transplantation using extracellular vesicles (EVs; exosomes and microvesicles) from the urine samples of patients.

METHODS:

One hundred and twenty-seven kidney recipients at 11 Japanese institutions were enrolled in this study; urine samples were obtained prior to protocol/episode biopsies. EVs were isolated from urine samples, and EV RNA markers were assayed using quantitative reverse transcription polymerase chain reaction. Diagnostic performance of EV RNA markers and diagnostic formulas comprising these markers were evaluated by comparison with the corresponding pathological diagnoses.

RESULTS:

EV CXCL9, CXCL10, and UMOD were elevated in T-cell-mediated rejection samples compared with other KGI samples, while SPNS2 was elevated in chronic antibody-mediated rejection (cABMR) samples. A diagnostic formula developed through Sparse Logistic Regression analysis using EV RNA markers allowed us to accurately (with an area under the receiver operator characteristic curve [AUC] of 0.875) distinguish cABMR from other KGI samples. EV B4GALT1 and SPNS2 were also elevated in cABMR, and a diagnostic formula using these markers was able to distinguish between cABMR and chronic calcineurin toxicity accurately (AUC 0.886). In interstitial fibrosis and tubular atrophy (IFTA) urine samples and those with high Banff chronicity score sums (BChS), POTEM levels may reflect disease severity, and diagnostic formulas using POTEM detected IFTA (AUC 0.830) and high BChS (AUC 0.850).

CONCLUSIONS:

KGIs could be diagnosed with urinary EV mRNA analysis with relatively high accuracy.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Kidney Transplantation / Exosomes / Kidney Diseases Type of study: Guideline Limits: Humans Country/Region as subject: Asia Language: En Journal: BMC Nephrol Journal subject: NEFROLOGIA Year: 2023 Document type: Article Affiliation country:
Fulltext
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Kidney Transplantation / Exosomes / Kidney Diseases Type of study: Guideline Limits: Humans Country/Region as subject: Asia Language: En Journal: BMC Nephrol Journal subject: NEFROLOGIA Year: 2023 Document type: Article Affiliation country: