Inflammatory Cells in Nephrectomy Tissue from Patients without and with a History of Urinary Stone Disease

Pegah Dejban; Elena M. Wilson; Muthuvel Jayachandran; Loren P. Herrera Hernandez; Zejfa Haskic; Linda E. Wellik; Sutapa Sinha; Andrew D. Rule; Aleksandar Denic; Kevin Koo; Aaron M. Potretzke; John C. Lieske

doi:10.2215/CJN.11730921

Inflammatory Cells in Nephrectomy Tissue from Patients without and with a History of Urinary Stone Disease

Pegah Dejban, Elena M. Wilson, Muthuvel Jayachandran, Loren P. Herrera Hernandez, Zejfa Haskic, Linda E. Wellik, Sutapa Sinha, Andrew D. Rule, Aleksandar Denic, Kevin Koo, Aaron M. Potretzke, John C. Lieske

Research output: Contribution to journal › Article › peer-review

Abstract

Background and objectives Urinary stone disease has been associated with inflammation, but the specific cell interactions that mediate events remain poorly defined. This study compared calcification and inflammatory cell patterns in kidney tissue from radical nephrectomy specimens of patients without and with a history of urinary stone disease. Design, setting, participants, & measurements Nontumor parenchyma of biobanked radical nephrectomy specimens from age-and sex-matched stone formers (n544) and nonstone formers (n582) were compared. Calcification was detected by Yasue staining and inflammatory cell populations by immunohistochemistry for CD68 (proinflammatory M1 macrophages), CD163 and CD206 (anti-inflammatory M2 macrophages), CD3 (T lymphocytes), and tryptase (mast cells). Calcifications and inflammatory cells were quantified in cortex and medulla using Image-Pro analysis software. Results Calcification in the medulla of stone formers was higher than in nonstone formers (P,0.001). M1 macrophages in the cortex and medulla of stone formers were greater than in nonstone formers (P,0.001), and greater in stone former medulla than stone former cortex (P50.02). There were no differences in age, sex, body mass index, tumor characteristics (size, stage, or thrombus), vascular disease status, or eGFR between the groups. M2 macrophages, T lymphocytes, and mast cells did not differ by stone former status. There was a correlation between M1 macrophages and calcification in the medulla of stone formers (rho50.48; P50.001) and between M2 macrophages and calcification in the medulla of nonstone formers (rho50.35; P50.001). T lymphocytes were correlated with calcification in the cortex of both nonstone formers (rho50.27; P50.01) and stone formers (rho50.42; P50.004), whereas mast cells and calcification were correlated only in the cortex of stone formers (rho50.35; P50.02). Conclusions Higher medullary calcification stimulated accumulation of proinflammatory rather than anti-inflammatory macrophages in stone formers.

Original language	English (US)
Pages (from-to)	414-422
Number of pages	9
Journal	Clinical Journal of the American Society of Nephrology
Volume	17
Issue number	3
DOIs	https://doi.org/10.2215/CJN.11730921
State	Published - Mar 2022

Keywords

Calcification
Inflammation
Macrophage
Medulla
Nephrectomy
Nephrolithiasis
Urologic diseases

ASJC Scopus subject areas

Epidemiology
Critical Care and Intensive Care Medicine
Nephrology
Transplantation

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10.2215/CJN.11730921

Cite this

Dejban, P., Wilson, E. M., Jayachandran, M., Herrera Hernandez, L. P., Haskic, Z., Wellik, L. E., Sinha, S., Rule, A. D., Denic, A., Koo, K., Potretzke, A. M., & Lieske, J. C. (2022). Inflammatory Cells in Nephrectomy Tissue from Patients without and with a History of Urinary Stone Disease. Clinical Journal of the American Society of Nephrology, 17(3), 414-422. https://doi.org/10.2215/CJN.11730921

Dejban, P, Wilson, EM, Jayachandran, M, Herrera Hernandez, LP, Haskic, Z, Wellik, LE, Sinha, S, Rule, AD , Denic, A, Koo, K, Potretzke, AM & Lieske, JC 2022, 'Inflammatory Cells in Nephrectomy Tissue from Patients without and with a History of Urinary Stone Disease', Clinical Journal of the American Society of Nephrology, vol. 17, no. 3, pp. 414-422. https://doi.org/10.2215/CJN.11730921

@article{9c4236d0509846a8bf8d6ad704d331a2,

title = "Inflammatory Cells in Nephrectomy Tissue from Patients without and with a History of Urinary Stone Disease",

abstract = "Background and objectives Urinary stone disease has been associated with inflammation, but the specific cell interactions that mediate events remain poorly defined. This study compared calcification and inflammatory cell patterns in kidney tissue from radical nephrectomy specimens of patients without and with a history of urinary stone disease. Design, setting, participants, & measurements Nontumor parenchyma of biobanked radical nephrectomy specimens from age-and sex-matched stone formers (n544) and nonstone formers (n582) were compared. Calcification was detected by Yasue staining and inflammatory cell populations by immunohistochemistry for CD68 (proinflammatory M1 macrophages), CD163 and CD206 (anti-inflammatory M2 macrophages), CD3 (T lymphocytes), and tryptase (mast cells). Calcifications and inflammatory cells were quantified in cortex and medulla using Image-Pro analysis software. Results Calcification in the medulla of stone formers was higher than in nonstone formers (P,0.001). M1 macrophages in the cortex and medulla of stone formers were greater than in nonstone formers (P,0.001), and greater in stone former medulla than stone former cortex (P50.02). There were no differences in age, sex, body mass index, tumor characteristics (size, stage, or thrombus), vascular disease status, or eGFR between the groups. M2 macrophages, T lymphocytes, and mast cells did not differ by stone former status. There was a correlation between M1 macrophages and calcification in the medulla of stone formers (rho50.48; P50.001) and between M2 macrophages and calcification in the medulla of nonstone formers (rho50.35; P50.001). T lymphocytes were correlated with calcification in the cortex of both nonstone formers (rho50.27; P50.01) and stone formers (rho50.42; P50.004), whereas mast cells and calcification were correlated only in the cortex of stone formers (rho50.35; P50.02). Conclusions Higher medullary calcification stimulated accumulation of proinflammatory rather than anti-inflammatory macrophages in stone formers.",

keywords = "Calcification, Inflammation, Macrophage, Medulla, Nephrectomy, Nephrolithiasis, Urologic diseases",

author = "Pegah Dejban and Wilson, {Elena M.} and Muthuvel Jayachandran and {Herrera Hernandez}, {Loren P.} and Zejfa Haskic and Wellik, {Linda E.} and Sutapa Sinha and Rule, {Andrew D.} and Aleksandar Denic and Kevin Koo and Potretzke, {Aaron M.} and Lieske, {John C.}",

note = "Funding Information: This work was partially funded by Mayo Clinic O{\textquoteright}Brien Urology Research Center (U54-DK101227), the Nephrology and Urology Summer Undergraduate Research Fellowship program (R25-DK101405), National Institute of Diabetes and Digestive and Kidney Diseases grant (R01-DK090358), and the Mayo Foundation. Funding Information: A.D. Rule reports employment with the Mayo Clinic; reports serving as a scientific advisor or member of the National Institute of Diabetes and Digestive and Kidney Diseases Urological Diseases of America Contract Management Board; reports serving as an Associate Editor of JASN and a Section Editor of the Mayo Clinic; and reports other interests/relationships with UpToDate. J.C. Lieske reports employment with the Mayo Clinic; reports having consultancy agreements with Allena, Alnylam, the American Board of Internal Medicine, Dicerna, Federation Bio, Novobiome, Orfan, Oxidien, OxThera, Siemens, and Synlogic; reports receiving research funding from Allena, Alnylam, Dicerna, OxThera, Retro-phin, Siemens, and Synlogic; reports receiving honoraria from the American Board of Internal Medicine and UpToDate; and reports serving as a scientific advisor or member of American Board of Internal Medicine, Hyperoxaluria Foundation, Kidney International, and Oxalosis. K. Koo reports employment with the Mayo Clinic and other interests/relationships with UpToDate. M. Jaya-chandran reports employment with the Mayo Clinic and serving in an advisory or leadership role for Journal of Extracellular Vesicles. A. Denic, L.E. Wellik, L.P. Herrera Hernandez, P. Dejban, S. Sinha, and Z. Haskic report being employed by the Mayo Clinic. All remaining authors have nothing to disclose. Publisher Copyright: {\textcopyright} 2022 by the American Society of Nephrology.",

year = "2022",

month = mar,

doi = "10.2215/CJN.11730921",

language = "English (US)",

volume = "17",

pages = "414--422",

journal = "Clinical Journal of the American Society of Nephrology",

issn = "1555-9041",

publisher = "American Society of Nephrology",

number = "3",

}

TY - JOUR

T1 - Inflammatory Cells in Nephrectomy Tissue from Patients without and with a History of Urinary Stone Disease

AU - Dejban, Pegah

AU - Wilson, Elena M.

AU - Jayachandran, Muthuvel

AU - Herrera Hernandez, Loren P.

AU - Haskic, Zejfa

AU - Wellik, Linda E.

AU - Sinha, Sutapa

AU - Rule, Andrew D.

AU - Denic, Aleksandar

AU - Koo, Kevin

AU - Potretzke, Aaron M.

AU - Lieske, John C.

N1 - Funding Information: This work was partially funded by Mayo Clinic O’Brien Urology Research Center (U54-DK101227), the Nephrology and Urology Summer Undergraduate Research Fellowship program (R25-DK101405), National Institute of Diabetes and Digestive and Kidney Diseases grant (R01-DK090358), and the Mayo Foundation. Funding Information: A.D. Rule reports employment with the Mayo Clinic; reports serving as a scientific advisor or member of the National Institute of Diabetes and Digestive and Kidney Diseases Urological Diseases of America Contract Management Board; reports serving as an Associate Editor of JASN and a Section Editor of the Mayo Clinic; and reports other interests/relationships with UpToDate. J.C. Lieske reports employment with the Mayo Clinic; reports having consultancy agreements with Allena, Alnylam, the American Board of Internal Medicine, Dicerna, Federation Bio, Novobiome, Orfan, Oxidien, OxThera, Siemens, and Synlogic; reports receiving research funding from Allena, Alnylam, Dicerna, OxThera, Retro-phin, Siemens, and Synlogic; reports receiving honoraria from the American Board of Internal Medicine and UpToDate; and reports serving as a scientific advisor or member of American Board of Internal Medicine, Hyperoxaluria Foundation, Kidney International, and Oxalosis. K. Koo reports employment with the Mayo Clinic and other interests/relationships with UpToDate. M. Jaya-chandran reports employment with the Mayo Clinic and serving in an advisory or leadership role for Journal of Extracellular Vesicles. A. Denic, L.E. Wellik, L.P. Herrera Hernandez, P. Dejban, S. Sinha, and Z. Haskic report being employed by the Mayo Clinic. All remaining authors have nothing to disclose. Publisher Copyright: © 2022 by the American Society of Nephrology.

PY - 2022/3

Y1 - 2022/3

N2 - Background and objectives Urinary stone disease has been associated with inflammation, but the specific cell interactions that mediate events remain poorly defined. This study compared calcification and inflammatory cell patterns in kidney tissue from radical nephrectomy specimens of patients without and with a history of urinary stone disease. Design, setting, participants, & measurements Nontumor parenchyma of biobanked radical nephrectomy specimens from age-and sex-matched stone formers (n544) and nonstone formers (n582) were compared. Calcification was detected by Yasue staining and inflammatory cell populations by immunohistochemistry for CD68 (proinflammatory M1 macrophages), CD163 and CD206 (anti-inflammatory M2 macrophages), CD3 (T lymphocytes), and tryptase (mast cells). Calcifications and inflammatory cells were quantified in cortex and medulla using Image-Pro analysis software. Results Calcification in the medulla of stone formers was higher than in nonstone formers (P,0.001). M1 macrophages in the cortex and medulla of stone formers were greater than in nonstone formers (P,0.001), and greater in stone former medulla than stone former cortex (P50.02). There were no differences in age, sex, body mass index, tumor characteristics (size, stage, or thrombus), vascular disease status, or eGFR between the groups. M2 macrophages, T lymphocytes, and mast cells did not differ by stone former status. There was a correlation between M1 macrophages and calcification in the medulla of stone formers (rho50.48; P50.001) and between M2 macrophages and calcification in the medulla of nonstone formers (rho50.35; P50.001). T lymphocytes were correlated with calcification in the cortex of both nonstone formers (rho50.27; P50.01) and stone formers (rho50.42; P50.004), whereas mast cells and calcification were correlated only in the cortex of stone formers (rho50.35; P50.02). Conclusions Higher medullary calcification stimulated accumulation of proinflammatory rather than anti-inflammatory macrophages in stone formers.

AB - Background and objectives Urinary stone disease has been associated with inflammation, but the specific cell interactions that mediate events remain poorly defined. This study compared calcification and inflammatory cell patterns in kidney tissue from radical nephrectomy specimens of patients without and with a history of urinary stone disease. Design, setting, participants, & measurements Nontumor parenchyma of biobanked radical nephrectomy specimens from age-and sex-matched stone formers (n544) and nonstone formers (n582) were compared. Calcification was detected by Yasue staining and inflammatory cell populations by immunohistochemistry for CD68 (proinflammatory M1 macrophages), CD163 and CD206 (anti-inflammatory M2 macrophages), CD3 (T lymphocytes), and tryptase (mast cells). Calcifications and inflammatory cells were quantified in cortex and medulla using Image-Pro analysis software. Results Calcification in the medulla of stone formers was higher than in nonstone formers (P,0.001). M1 macrophages in the cortex and medulla of stone formers were greater than in nonstone formers (P,0.001), and greater in stone former medulla than stone former cortex (P50.02). There were no differences in age, sex, body mass index, tumor characteristics (size, stage, or thrombus), vascular disease status, or eGFR between the groups. M2 macrophages, T lymphocytes, and mast cells did not differ by stone former status. There was a correlation between M1 macrophages and calcification in the medulla of stone formers (rho50.48; P50.001) and between M2 macrophages and calcification in the medulla of nonstone formers (rho50.35; P50.001). T lymphocytes were correlated with calcification in the cortex of both nonstone formers (rho50.27; P50.01) and stone formers (rho50.42; P50.004), whereas mast cells and calcification were correlated only in the cortex of stone formers (rho50.35; P50.02). Conclusions Higher medullary calcification stimulated accumulation of proinflammatory rather than anti-inflammatory macrophages in stone formers.

KW - Calcification

KW - Inflammation

KW - Macrophage

KW - Medulla

KW - Nephrectomy

KW - Nephrolithiasis

KW - Urologic diseases

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Inflammatory Cells in Nephrectomy Tissue from Patients without and with a History of Urinary Stone Disease

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