Vitamin D Effects on Bone Homeostasis and Cardiovascular System in Patients with Chronic Kidney Disease and Renal Transplant Recipients

doi:10.3390/nu13051453

Review

. 2021 Apr 25;13(5):1453.

doi: 10.3390/nu13051453.

Vitamin D Effects on Bone Homeostasis and Cardiovascular System in Patients with Chronic Kidney Disease and Renal Transplant Recipients

Affiliations

PMID: 33922902
PMCID: PMC8145016
DOI: 10.3390/nu13051453

Review

Vitamin D Effects on Bone Homeostasis and Cardiovascular System in Patients with Chronic Kidney Disease and Renal Transplant Recipients

Giuseppe Cianciolo et al. Nutrients. 2021.

. 2021 Apr 25;13(5):1453.

doi: 10.3390/nu13051453.

Affiliation

¹ Nephrology, Dialysis and Renal Transplantation Unit, IRCCS Azienda Ospedaliero-Universitaria di Bologna, 40138 Bologna, Italy.

PMID: 33922902
PMCID: PMC8145016
DOI: 10.3390/nu13051453

Abstract

Poor vitamin D status is common in patients with impaired renal function and represents one main component of the complex scenario of chronic kidney disease-mineral and bone disorder (CKD-MBD). Therapeutic and dietary efforts to limit the consequences of uremia-associated vitamin D deficiency are a current hot topic for researchers and clinicians in the nephrology area. Evidence indicates that the low levels of vitamin D in patients with CKD stage above 4 (GFR < 15 mL/min) have a multifactorial origin, mainly related to uremic malnutrition, namely impaired gastrointestinal absorption, dietary restrictions (low-protein and low-phosphate diets), and proteinuria. This condition is further worsened by the compromised response of CKD patients to high-dose cholecalciferol supplementation due to the defective activation of renal hydroxylation of vitamin D. Currently, the literature lacks large and interventional studies on the so-called non-calcemic activities of vitamin D and, above all, the modulation of renal and cardiovascular functions and immune response. Here, we review the current state of the art of the benefits of supplementation with native vitamin D in various clinical settings of nephrological interest: CKD, dialysis, and renal transplant, with a special focus on the effects on bone homeostasis and cardiovascular outcomes.

Keywords: CKD–MBD; cardiovascular risk; chronic kidney disease; dialysis; kidney transplant; vitamin D.

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Conflict of interest statement

The authors declare no conflict of interest.

Figures

**Figure 1**
The complex interplay between active vitamin D (both circulating and activated by osteoblasts), osteocyte-produced FGF23 and sclerostin, parathyroid gland signaling, and effects on bone cells. Abbreviations: FGF23, fibroblast growth factor 23; BMP-2, bone morphogenic protein-2; Nurr-1, nuclear receptor-related protein-1; DKKI, dickkopf-related protein 1.

**Figure 2**
Interactions between active vitamin D and FGF23/FGFR4 signaling regarding LVH development at cardiomyocyte level. Active vitamin D counterbalances FGF23-induced LVH both by modifying gene expression and through a direct inhibitory effect on FGF23/FGFR4 transduction pathway. Abbreviations: FGF23, fibroblast growth factor 23; VDRAs, vitamin D receptor agonists; FGFR4, fibroblast growth factor receptor 4; PLCy, phospholipase Cy; NFAT, nuclear factor of activated T cells; LVH, left ventricular hypertrophy.

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References

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[1] Maurya V.K., Bashir K., Aggarwal M. Vitamin D microencapsulation and fortification: Trends and technologies. J. Steroid. Biochem. Mol. Biol. 2020;196:105489. doi: 10.1016/j.jsbmb.2019.105489. - DOI - PubMed

[2] Maurya V.K., Bashir K., Aggarwal M. Vitamin D microencapsulation and fortification: Trends and technologies. J. Steroid. Biochem. Mol. Biol. 2020;196:105489. doi: 10.1016/j.jsbmb.2019.105489. - DOI - PubMed

[3] Bikle D. Vitamin D: Production, Metabolism, and Mechanisms of Action. In: Feingold K.R., Anawalt B., Boyce A., Chrousos G., de Herder W.W., Dungan K., Grossman A., Hershman J.M., Hofland J., Kaltsas G., et al., editors. Endotext. MDText.com, Inc.; South Dartmouth, MA, USA: 2000.

[4] Bikle D. Vitamin D: Production, Metabolism, and Mechanisms of Action. In: Feingold K.R., Anawalt B., Boyce A., Chrousos G., de Herder W.W., Dungan K., Grossman A., Hershman J.M., Hofland J., Kaltsas G., et al., editors. Endotext. MDText.com, Inc.; South Dartmouth, MA, USA: 2000.

[5] Bouillon R., Schuit F., Antonio L., Rastinejad F. Vitamin D Binding Protein: A Historic Overview. Front Endocrinol. 2019;10:910. doi: 10.3389/fendo.2019.00910. - DOI - PMC - PubMed

[6] Bouillon R., Schuit F., Antonio L., Rastinejad F. Vitamin D Binding Protein: A Historic Overview. Front Endocrinol. 2019;10:910. doi: 10.3389/fendo.2019.00910. - DOI - PMC - PubMed

[7] Holick M.F. Vitamin D deficiency. N. Engl. J. Med. 2007;357:266–281. doi: 10.1056/NEJMra070553. - DOI - PubMed

[8] Holick M.F. Vitamin D deficiency. N. Engl. J. Med. 2007;357:266–281. doi: 10.1056/NEJMra070553. - DOI - PubMed

[9] Bikle D.D. Vitamin D metabolism, mechanism of action, and clinical applications. Chem. Biol. 2014;21:319–329. doi: 10.1016/j.chembiol.2013.12.016. - DOI - PMC - PubMed

[10] Bikle D.D. Vitamin D metabolism, mechanism of action, and clinical applications. Chem. Biol. 2014;21:319–329. doi: 10.1016/j.chembiol.2013.12.016. - DOI - PMC - PubMed

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Vitamin D Effects on Bone Homeostasis and Cardiovascular System in Patients with Chronic Kidney Disease and Renal Transplant Recipients

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Vitamin D Effects on Bone Homeostasis and Cardiovascular System in Patients with Chronic Kidney Disease and Renal Transplant Recipients

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