Multicolor imaging of calcium-binding proteins in human kidney stones for elucidating the effects of proteins on crystal growth

Multicolor imaging of calcium-binding proteins in human kidney stones for elucidating the effects of proteins on crystal growth

Abstract The pathogenesis of kidney stone formation includes multi-step processes involving complex interactions between mineral components and protein matrix. Calcium-binding proteins in kidney stones have great influences on the stone formation. The spatial distributions of these proteins in kidne...

Full description

Bibliographic Details
Main Authors: Yutaro Tanaka, Mihoko Maruyama, Atsushi Okada, Yoshihiro Furukawa, Koichi Momma, Yuki Sugiura, Rie Tajiri, Koichi P. Sawada, Shunichi Tanaka, Kazufumi Takano, Kazumi Taguchi, Shuzo Hamamoto, Ryosuke Ando, Katsuo Tsukamoto, Masashi Yoshimura, Yusuke Mori, Takahiro Yasui
Format: Article
Language:English
Published: Nature Publishing Group 2021-08-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-95782-1
id doaj-e20f8be2b4294a01b3254129c79fb04c
record_format Article
spelling doaj-e20f8be2b4294a01b3254129c79fb04c2021-08-29T11:24:17ZengNature Publishing GroupScientific Reports2045-23222021-08-0111111210.1038/s41598-021-95782-1Multicolor imaging of calcium-binding proteins in human kidney stones for elucidating the effects of proteins on crystal growthYutaro Tanaka0Mihoko Maruyama1Atsushi Okada2Yoshihiro Furukawa3Koichi Momma4Yuki Sugiura5Rie Tajiri6Koichi P. Sawada7Shunichi Tanaka8Kazufumi Takano9Kazumi Taguchi10Shuzo Hamamoto11Ryosuke Ando12Katsuo Tsukamoto13Masashi Yoshimura14Yusuke Mori15Takahiro Yasui16Department of Nephro-urology, Graduate School of Medical Sciences, Nagoya City UniversityInstitute for Advanced Co-Creation Studies, Osaka UniversityDepartment of Nephro-urology, Graduate School of Medical Sciences, Nagoya City UniversityDepartment of Earth Science, Tohoku UniversityNational Museum of Nature and ScienceHealth and Medical Research Institute, National Institute of Advanced Industrial Science and Technology (AIST)Tajiri Thin Section LaboratoryInstitute for Advanced Co-Creation Studies, Osaka UniversityGraduate School of Life and Environmental Sciences, Kyoto Prefectural UniversityGraduate School of Life and Environmental Sciences, Kyoto Prefectural UniversityDepartment of Nephro-urology, Graduate School of Medical Sciences, Nagoya City UniversityDepartment of Nephro-urology, Graduate School of Medical Sciences, Nagoya City UniversityDepartment of Nephro-urology, Graduate School of Medical Sciences, Nagoya City UniversityGraduate School of Engineering, Osaka UniversityInstitute of Laser Engineering, Osaka UniversityGraduate School of Engineering, Osaka UniversityDepartment of Nephro-urology, Graduate School of Medical Sciences, Nagoya City UniversityAbstract The pathogenesis of kidney stone formation includes multi-step processes involving complex interactions between mineral components and protein matrix. Calcium-binding proteins in kidney stones have great influences on the stone formation. The spatial distributions of these proteins in kidney stones are essential for evaluating the in vivo effects of proteins on the stone formation, although the actual distribution of these proteins is still unclear. We reveal micro-scale distributions of three different proteins, namely osteopontin (OPN), renal prothrombin fragment 1 (RPTF-1), and calgranulin A (Cal-A), in human kidney stones retaining original mineral phases and textures: calcium oxalate monohydrate (COM) and calcium oxalate dihydrate (COD). OPN and RPTF-1 were distributed inside of both COM and COD crystals, whereas Cal-A was distributed outside of crystals. OPN and RPTF-1 showed homogeneous distributions in COM crystals with mosaic texture, and periodically distributions parallel to specific crystal faces in COD crystals. The unique distributions of these proteins enable us to interpret the different in vivo effects of each protein on CaOx crystal growth based on their physico-chemical properties and the complex physical environment changes of each protein. This method will further allow us to elucidate in vivo effects of different proteins on kidney stone formation.https://doi.org/10.1038/s41598-021-95782-1
collection DOAJ
language English
format Article
sources DOAJ
author Yutaro Tanaka
Mihoko Maruyama
Atsushi Okada
Yoshihiro Furukawa
Koichi Momma
Yuki Sugiura
Rie Tajiri
Koichi P. Sawada
Shunichi Tanaka
Kazufumi Takano
Kazumi Taguchi
Shuzo Hamamoto
Ryosuke Ando
Katsuo Tsukamoto
Masashi Yoshimura
Yusuke Mori
Takahiro Yasui
spellingShingle Yutaro Tanaka
Mihoko Maruyama
Atsushi Okada
Yoshihiro Furukawa
Koichi Momma
Yuki Sugiura
Rie Tajiri
Koichi P. Sawada
Shunichi Tanaka
Kazufumi Takano
Kazumi Taguchi
Shuzo Hamamoto
Ryosuke Ando
Katsuo Tsukamoto
Masashi Yoshimura
Yusuke Mori
Takahiro Yasui
Multicolor imaging of calcium-binding proteins in human kidney stones for elucidating the effects of proteins on crystal growth
Scientific Reports
author_facet Yutaro Tanaka
Mihoko Maruyama
Atsushi Okada
Yoshihiro Furukawa
Koichi Momma
Yuki Sugiura
Rie Tajiri
Koichi P. Sawada
Shunichi Tanaka
Kazufumi Takano
Kazumi Taguchi
Shuzo Hamamoto
Ryosuke Ando
Katsuo Tsukamoto
Masashi Yoshimura
Yusuke Mori
Takahiro Yasui
author_sort Yutaro Tanaka
title Multicolor imaging of calcium-binding proteins in human kidney stones for elucidating the effects of proteins on crystal growth
title_short Multicolor imaging of calcium-binding proteins in human kidney stones for elucidating the effects of proteins on crystal growth
title_full Multicolor imaging of calcium-binding proteins in human kidney stones for elucidating the effects of proteins on crystal growth
title_fullStr Multicolor imaging of calcium-binding proteins in human kidney stones for elucidating the effects of proteins on crystal growth
title_full_unstemmed Multicolor imaging of calcium-binding proteins in human kidney stones for elucidating the effects of proteins on crystal growth
title_sort multicolor imaging of calcium-binding proteins in human kidney stones for elucidating the effects of proteins on crystal growth
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-08-01
description Abstract The pathogenesis of kidney stone formation includes multi-step processes involving complex interactions between mineral components and protein matrix. Calcium-binding proteins in kidney stones have great influences on the stone formation. The spatial distributions of these proteins in kidney stones are essential for evaluating the in vivo effects of proteins on the stone formation, although the actual distribution of these proteins is still unclear. We reveal micro-scale distributions of three different proteins, namely osteopontin (OPN), renal prothrombin fragment 1 (RPTF-1), and calgranulin A (Cal-A), in human kidney stones retaining original mineral phases and textures: calcium oxalate monohydrate (COM) and calcium oxalate dihydrate (COD). OPN and RPTF-1 were distributed inside of both COM and COD crystals, whereas Cal-A was distributed outside of crystals. OPN and RPTF-1 showed homogeneous distributions in COM crystals with mosaic texture, and periodically distributions parallel to specific crystal faces in COD crystals. The unique distributions of these proteins enable us to interpret the different in vivo effects of each protein on CaOx crystal growth based on their physico-chemical properties and the complex physical environment changes of each protein. This method will further allow us to elucidate in vivo effects of different proteins on kidney stone formation.
url https://doi.org/10.1038/s41598-021-95782-1
work_keys_str_mv AT yutarotanaka multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT mihokomaruyama multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT atsushiokada multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT yoshihirofurukawa multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT koichimomma multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT yukisugiura multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT rietajiri multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT koichipsawada multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT shunichitanaka multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT kazufumitakano multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT kazumitaguchi multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT shuzohamamoto multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT ryosukeando multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT katsuotsukamoto multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT masashiyoshimura multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT yusukemori multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
AT takahiroyasui multicolorimagingofcalciumbindingproteinsinhumankidneystonesforelucidatingtheeffectsofproteinsoncrystalgrowth
_version_ 1721186874648690688

Similar Items