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Open Access 01-12-2019 | Research article

Association of plasma macrophage colony-stimulating factor with cardiovascular morbidity and all-cause mortality in chronic hemodialysis patients

Authors: Xuan Deng, Qian Yang, Yuxi Wang, Yi Yang, Guangchang Pei, Han Zhu, Jianliang Wu, Meng Wang, Zhi Zhao, Huzi Xu, Cheng Zhou, Yi Guo, Ying Yao, Zhiguo Zhang, Wenhui Liao, Rui Zeng

Published in: BMC Nephrology | Issue 1/2019

Abstract

Background

Cardiovascular disease (CVD) events are the main cause of death in long-term hemodialysis (HD) patients. Macrophage colony- stimulating factor (M-CSF) is actively involved in the formation of atherosclerosis and causes plaque instability, thrombosis and the development of acute coronary syndromes. However, little information is available on the role of M-CSF in HD patients. We aimed to investigate the association between plasma M-CSF levels and CVD events as well as all-cause mortality in patients undergoing long-term HD.

Methods

Fifty two HD patients and 8 healthy controls were recruited in this study. HD patients were followed up from September 2014 to May 2017. The primary end point was CVD event, the secondary outcome was death from any cause. Patients were divided into two groups with low and high M-CSF levels based on the optimal cut-off value determined by the ROC curve. Cox regression analyses were used to assess the predictive value of plasma M-CSF for CVD events and all-cause mortality in HD patients. We tested the levels of plasma M-CSF and other inflammatory cytokines in surviving HD patients using ELISA or CBA kit.

Results

The average plasma level of M-CSF in 52 patients was approximately twice that of healthy controls (992.4 vs. 427.2 pg/mL; p < 0.05). During 32 months of follow-up, 26 patients (50.0%) had at least one CVD event and 8 patients (15.4%) died. The mean plasma M-CSF concentration increased in survivors after follow-up compared to that detected at baseline (1277.8 ± 693.3 vs. 997.2 ± 417.4 pg/mL; p < 0.05). Multivariate Cox regression analysis showed that plasma M-CSF is an independent risk factor for CVD events in HD patients (p < 0.05). In the Cox regression model after adjusting for gender and age, high M-CSF levels were related to an increased risk of all-cause death (p < 0.05). We also found that M-CSF levels were positively correlated with IL-6 and IL-18 levels (both p < 0.05), which are the major pathogentic cytokines that contribute to HD-related CVD events.

Conclusion

M-CSF is a prognostic factor for CVD events and all-cause mortality in HD patients.

Rucker D, Tonelli M. Cardiovascular risk and management in chronic kidney disease. Nat Rev Nephrol. 2009;5(5):287–96.CrossRef

Dierkes J, Domrose U, Westphal S, Ambrosch A, Bosselmann HP, Neumann KH, Luley C. Cardiac troponin T predicts mortality in patients with end-stage renal disease. Circulation. 2000;102(16):1964–9.CrossRef

Zimmermann J, Herrlinger S, Pruy A, Metzger T, Wanner C. Inflammation enhances cardiovascular risk and mortality in hemodialysis patients. Kidney Int. 1999;55(2):648–58.CrossRef

Foley RN, Parfrey PS, Sarnak MJ. Epidemiology of cardiovascular disease in chronic renal disease. J Am Soc Nephrol. 1998;9(12 Suppl):S16–23.PubMed

Gow DJ, Sester DP, Hume DA. CSF-1, IGF-1, and the control of postnatal growth and development. J Leukoc Biol. 2010;88(3):475–81.CrossRef

Chitu V, Stanley ER. Colony-stimulating factor-1 in immunity and inflammation. Curr Opin Immunol. 2006;18(1):39–48.CrossRef

Iwata Y, Bostrom EA, Menke J, Rabacal WA, Morel L, Wada T, Kelley VR. Aberrant macrophages mediate defective kidney repair that triggers nephritis in lupus-susceptible mice. J Immunol. 2012;188(9):4568–80.CrossRef

Haraguchi K, Kubo M, Saito T, Furuya F, Inoue H, Takahashi M, Shimura H, Tago K, Kobayashi T. Serum level of macrophage colony-stimulating factor and atherosclerosis in hemodialysis patients. Nephron Clin Pract. 2006;102(1):c14–20.CrossRef

Ikonomidis I, Stamatelopoulos K, Lekakis J, Vamvakou GD, Kremastinos DT. Inflammatory and non-invasive vascular markers: the multimarker approach for risk stratification in coronary artery disease. Atherosclerosis. 2008;199(1):3–11.CrossRef

10.

Tashiro H, Shimokawa H, Yamamoto K, Momohara M, Tada H, Takeshita A. Altered plasma levels of cytokines in patients with ischemic heart disease. Coron Artery Dis. 1997;8(3–4):143–7.CrossRef

11.

Ikonomidis I, Andreotti F, Economou E, Stefanadis C, Toutouzas P, Nihoyannopoulos P. Increased proinflammatory cytokines in patients with chronic stable angina and their reduction by aspirin. Circulation. 1999;100(8):793–8.CrossRef

12.

Tashiro H, Shimokawa H, Yamamoto K, Nagano M, Momohara M, Muramatu K, Takeshita A. Monocyte-related cytokines in acute myocardial infarction. Am Heart J. 1995;130(3 Pt 1):446–52.CrossRef

13.

Hohensinner PJ, Rychli K, Zorn G, Hulsmann M, Berger R, Mortl D, Richter B, Huber K, Wojta J, Pacher R, et al. Macrophage-modulating cytokines predict adverse outcome in heart failure. Thromb Haemost. 2010;103(2):435–41.CrossRef

14.

Rallidis LS, Zolindaki MG, Manioudaki HS, Laoutaris NP, Velissaridou AH, Papasteriadis EG. Prognostic value of C-reactive protein, fibrinogen, interleukin-6, and macrophage colony stimulating factor in severe unstable angina. Clin Cardiol. 2002;25(11):505–10.CrossRef

15.

Rallidis LS, Zolindaki MG, Pentzeridis PC, Poulopoulos KP, Velissaridou AH, Apostolou TS. Raised concentrations of macrophage colony stimulating factor in severe unstable angina beyond the acute phase are strongly predictive of long term outcome. Heart. 2004;90(1):25–9.CrossRef

16.

Carlsson AC, Ingelsson E, Sundstrom J, Carrero JJ, Gustafsson S, Feldreich T, Stenemo M, Larsson A, Lind L, Arnlov J. Use of proteomics to investigate kidney function decline over 5 years. Clin J Am Soc Nephrol. 2017;12(8):1226–35.CrossRef

17.

Coresh J, Turin TC, Matsushita K, Sang Y, Ballew SH, Appel LJ, Arima H, Chadban SJ, Cirillo M, Djurdjev O, et al. Decline in estimated glomerular filtration rate and subsequent risk of end-stage renal disease and mortality. Jama. 2014;311(24):2518–31.CrossRef

18.

Holzmann MJ, Aastveit A, Hammar N, Jungner I, Walldius G, Holme I. Renal dysfunction increases the risk of ischemic and hemorrhagic stroke in the general population. Ann Med. 2012;44(6):607–15.CrossRef

19.

Matsushita K, Mahmoodi BK, Woodward M, Emberson JR, Jafar TH, Jee SH, Polkinghorne KR, Shankar A, Smith DH, Tonelli M, et al. Comparison of risk prediction using the CKD-EPI equation and the MDRD study equation for estimated glomerular filtration rate. Jama. 2012;307(18):1941–51.CrossRef

20.

Hillege HL, Girbes AR, de Kam PJ, Boomsma F, de Zeeuw D, Charlesworth A, Hampton JR, van Veldhuisen DJ. Renal function, neurohormonal activation, and survival in patients with chronic heart failure. Circulation. 2000;102(2):203–10.CrossRef

21.

Ito A, Shimokawa H, Meno H, Inou T. Possible involvement of macrophage-colony stimulating factor in the pathogenesis of cardiac dysfunction in hemodialysis patients. Jpn Heart J. 2004;45(3):497–503.CrossRef

22.

Le Meur Y, Fixe P, Aldigier JC, Leroux-Robert C, Praloran V. Macrophage colony stimulating factor involvement in uremic patients. Kidney Int. 1996;50(3):1007–12.CrossRef

23.

Meyer C, Heiss C, Drexhage C, Kehmeier ES, Balzer J, Muhlfeld A, Merx MW, Lauer T, Kuhl H, Floege J, et al. Hemodialysis-induced release of hemoglobin limits nitric oxide bioavailability and impairs vascular function. J Am Coll Cardiol. 2010;55(5):454–9.CrossRef

24.

Motoyoshi K. Biological activities and clinical application of M-CSF. Int J Hematol. 1998;67(2):109–22.CrossRef

25.

Nishida M, Ando M, Iwamoto Y, Tsuchiya K, Nitta K. New insight into atherosclerosis in hemodialysis patients: overexpression of scavenger receptor and macrophage Colony-stimulating factor genes. Nephron extra. 2016;6(2):22–30.CrossRef

26.

Pixley FJ, Stanley ER. CSF-1 regulation of the wandering macrophage: complexity in action. Trends Cell Biol. 2004;14(11):628–38.CrossRef

27.

Seshiah PN, Kereiakes DJ, Vasudevan SS, Lopes N, Su BY, Flavahan NA, Goldschmidt-Clermont PJ. Activated monocytes induce smooth muscle cell death: role of macrophage colony-stimulating factor and cell contact. Circulation. 2002;105(2):174–80.CrossRef

28.

Uzui H, Harpf A, Liu M, Doherty TM, Shukla A, Chai NN, Tripathi PV, Jovinge S, Wilkin DJ, Asotra K, et al. Increased expression of membrane type 3-matrix metalloproteinase in human atherosclerotic plaque: role of activated macrophages and inflammatory cytokines. Circulation. 2002;106(24):3024–30.CrossRef

29.

Ando M, Gafvels M, Bergstrom J, Lindholm B, Lundkvist I. Uremic serum enhances scavenger receptor expression and activity in the human monocytic cell line U937. Kidney Int. 1997;51(3):785–92.CrossRef

30.

Ando M, Lundkvist I, Bergstrom J, Lindholm B. Enhanced scavenger receptor expression in monocyte-macrophages in dialysis patients. Kidney Int. 1996;49(3):773–80.CrossRef

31.

Amento EP, Ehsani N, Palmer H, Libby P. Cytokines and growth factors positively and negatively regulate interstitial collagen gene expression in human vascular smooth muscle cells. Arterioscler Thromb. 1991;11(5):1223–30.CrossRef

32.

Yesner LM, Huh HY, Pearce SF, Silverstein RL. Regulation of monocyte CD36 and thrombospondin-1 expression by soluble mediators. Arterioscler Thromb Vasc Biol. 1996;16(8):1019–25.CrossRef

33.

de Lemos JA, Morrow DA, Blazing MA, Jarolim P, Wiviott SD, Sabatine MS, Califf RM, Braunwald E. Serial measurement of monocyte chemoattractant protein-1 after acute coronary syndromes: results from the A to Z trial. J Am Coll Cardiol. 2007;50(22):2117–24.CrossRef

34.

Bataille R, Klein B. C-reactive protein levels as a direct indicator of interleukin-6 levels in humans in vivo. Arthritis Rheum. 1992;35(8):982–4.CrossRef

35.

Pasceri V, Willerson JT, Yeh ET. Direct proinflammatory effect of C-reactive protein on human endothelial cells. Circulation. 2000;102(18):2165–8.CrossRef

36.

Zwaka TP, Hombach V, Torzewski J. C-reactive protein-mediated low density lipoprotein uptake by macrophages: implications for atherosclerosis. Circulation. 2001;103(9):1194–7.CrossRef

37.

Blaschke F, Bruemmer D, Yin F, Takata Y, Wang W, Fishbein MC, Okura T, Higaki J, Graf K, Fleck E, et al. C-reactive protein induces apoptosis in human coronary vascular smooth muscle cells. Circulation. 2004;110(5):579–87.CrossRef

38.

Gerdes N, Sukhova GK, Libby P, Reynolds RS, Young JL, Schonbeck U. Expression of interleukin (IL)-18 and functional IL-18 receptor on human vascular endothelial cells, smooth muscle cells, and macrophages: implications for atherogenesis. J Exp Med. 2002;195(2):245–57.CrossRef

39.

Mallat Z, Corbaz A, Scoazec A, Besnard S, Leseche G, Chvatchko Y, Tedgui A. Expression of interleukin-18 in human atherosclerotic plaques and relation to plaque instability. Circulation. 2001;104(14):1598–603.CrossRef

40.

Kawano Y, Takaue Y, Minakuchi J, Kawashima S, Kimura F, Motoyoshi K, Abe T, Sato J, Hirao A, Saito S, et al. Effects of monocyte-macrophage colony-stimulating factor (M-CSF) on in vitro erythropoiesis of marrow progenitor cells from patients with renal anemia. Eur J Haematol. 1995;54(3):147–52.CrossRef

41.

Eckardt KU. Anaemia in end-stage renal disease: pathophysiological considerations. Nephrol Dial Transplant. 2001;16(Suppl 7):2–8.CrossRef

42.

Malyszko J. Mechanism of endothelial dysfunction in chronic kidney disease. Clin Chim Acta. 2010;411(19–20):1412–20.CrossRef

Title: Association of plasma macrophage colony-stimulating factor with cardiovascular morbidity and all-cause mortality in chronic hemodialysis patients
Authors: Xuan Deng
Qian Yang
Yuxi Wang
Yi Yang
Guangchang Pei
Han Zhu
Jianliang Wu
Meng Wang
Zhi Zhao
Huzi Xu
Cheng Zhou
Yi Guo
Ying Yao
Zhiguo Zhang
Wenhui Liao
Rui Zeng
Publication date: 01-12-2019
Publisher: BioMed Central
Published in: BMC Nephrology / Issue 1/2019
Electronic ISSN: 1471-2369
DOI: https://doi.org/10.1186/s12882-019-1510-z

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Abstract

Background

Methods

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