Association between Polymorphism Locus rs7041 and rs4588 in VDBP Gene and Vitamin D Status with Mortality in Sepsis Patient
Abstract
Vitamin D deficiency was associated with an increased mortality risk in patients with sepsis. Loci rs7041 and rs4588 polymorphisms of the Vitamin D Binding Protein (VDBP) gene receptor caused a significantly increased risk of vitamin D deficiency in subtropical countries (Yordania). Simultaneously, similar studies for the tropics (Indonesia) have not been found yet. This study aims to analyze the association between polymorphism locus rs7041 and rs4588 in the vitamin D binding receptor gene and vitamin D status with the mortality of sepsis patients. This study was an analytical observation type with a cohort design. The relationship between the two groups was analyzed using the chi-square test/fisher test. Mutant’s polymorphism locus rs7041 in not survived patients is more than survived (65.0% vs. 35.0%) with a p-value of 0,025. The mortality risk was 1.625 times (RR 1.625 95% CI 1.044 – 2.529). The mutant’s polymorphism locus rs4588 locus in not survived patients is more than survived (70.3% vs. 29.7%) with a p-value of 0,022. The mortality risk was 1.622 times (RR 1.622 95% CI 1.095 – 2.402). Polymorphism loci rs7041 and rs4588 in not survived sepsis patients were higher mutants than the wild type. The highest vitamin D deficiency occurred in the mutant locus rs4588 (55.5%), but it was not statistically significant p > 0.05. There was an association between Loci rs7041 and rs4588 polymorphisms and mortality of sepsis patients. No association was between Loci rs7041 and rs4588 polymorphisms with vitamin D status and between vitamin D status and mortality of patients with sepsis.
Keywords: polymorphism, rs7041, rs4588, vitamin D, vitamin D binding protein, mortality, sepsis.
Full Text:
PDFReferences
ROZMUS D., PŁOMIŃSKI J., AUGUSTYN K., and CIEŚLIŃSKA A. Rs7041 and rs4588 Polymorphisms in Vitamin D Binding Protein Gene (VDBP) and the Risk of Diseases. International Journal of Molecular Sciences, 2022, 23: 14-17.
XIE C.N., YUE M., HUANG P., TIAN T., FAN H.Z., WU M.P., YU R.-B., YI H.-G., XIA X.-S., FENG Y., ZHANG Y., and WANG J. Vitamin D binding protein polymorphisms influence susceptibility to hepatitis C virus infection in a high-risk Chinese population. Gene, 2018, 679: 405-411. DOI: 10.1016/j.gene.2018.09.021.
SUSANTI M. Effect of CYP2R1 Receptor Gene Polymorphism (rs 10741657) on Vitamin D Levels. Master Theses. Faculty of Medicine, North Sumatra University, 2018. https://repositori.usu.ac.id/handle/123456789/6074
HASHEMI S.M.A., THIJSSEN M., HOSSEINI S.Y., TABARRAEI A., POURKARIM M.R., and SARVARI J. Human gene polymorphisms and their possible impact on the clinical outcome of SARS-CoV-2 infection. Archives of Virology, 2021, 166: 2089-108.
HARISHANKAR M., SAMPATH P., ATHIKESAVAN V., CHINNAIYAN P., VELAYUTHAM B., PUTCHA U.K., TRIPATHY S.P., RANGANATHAN U.D., SELVARAJ P., and BETHUNAICKAN R. Association of rs7041 and rs4588 polymorphisms of vitamin D binding protein gene in pulmonary tuberculosis. Meta Gene, 2020, 26: 100822. https://doi.org/10.1016/j.mgene.2020.100822
YOO J.W., JUNG Y.K., JU S., LEE S.J., CHO Y.J., JEONG Y.Y., LEE J.D., and CHO M.-C. Serum vitamin D binding protein level, but not serum total, bioavailable, free vitamin D, is higher in 30-days survivors than in nonsurvivors with sepsis. Medicine (Baltimore), 2020, 99 (25): e20756. DOI: 10.1097/MD.0000000000020756.
AL-DAGHRI N.M., MOHAMMED A.K., BUKHARI I., RIKLI M., ABDI S., ANSARI M.G.A., SABICO S., HUSSAIN S.D., ALENAD A., AL-SALEH Y., and ALOKAIL M.S. Efficacy of vitamin D supplementation according to vitamin D-binding protein polymorphisms. Nutrition (Burbank, Los Angeles County, California), 2019, 63-64: 148-154
DOI: 10.1016/j.nut.2019.02.003
ALSHAHAWEY M. A genetic insight into vitamin D binding protein and COVID-19. Medical Hypotheses, 2021, 149: 2-11. https://doi.org/10.1016/j.mehy.2021.110531.
ZHANG T.P., CHEN S.S., ZHANG G.Y., SHI S.J., WEI L., and LI H.M. Association of vitamin D pathway genes polymorphisms with pulmonary tuberculosis susceptibility in a Chinese population. Genes & Nutrition, 2021, 16: 5-9.
NAINGGOLAN M., ASDIE R.H., MULYA D.P., PENYAKIT S., INFEKSI T., and KEDOKTERAN F. 28-Day Survival of Sepsis Patients Based on Vitamin D Levels at the Start of Treatment at Dr. Sardjito Hospital. Gadjah Mada University Press - Academic Publisher, 2020: 3-18.
KUMAR M.K., DAS S., BISWAL N., PARAMESWARAN N., and NANDA N. Vitamin D Status at Admission and Its Association with Mortality in Children Admitted to the Pediatric Intensive Care Unit. Cureus, 2020, 12(6): e8413. DOI: 10.7759/cureus.8413.
BAYAT M., GACHKAR L., ZAHIRNIA M., and HADAVAND F. Association between low serum vitamin D levels and sepsis: A single-center study in Tehran, Iran. Archives of Clinical Infectious Diseases, 2021, 16: 4-7.
LI Y., and DING S. Serum 25-Hydroxyvitamin D and the risk of mortality in adult patients with Sepsis: A meta-analysis. BMC Infectious Diseases, 2020, 20: 1-10.
CHEN K.W., CHEN C.W., YUAN K.C., WANG I.T., HUNG F.M., WANG A.Y., WANG Y.-C., KUO Y.-T., LIN Y.-C., SHIH M.-C., KUNG Y.-C., RUAN S.-Y., CHIU C.-T., CHAO A., HAN Y.-Y., KUO L.-K., and YEH Y.-C. Prevalence of Vitamin D Deficiency and Associated Factors in Critically Ill Patients: A Multicenter Observational Study. Frontiers in Nutrition, 2021, 8: 1-9. https://www.frontiersin.org/articles/10.3389/fnut.2021.768804/full
ARDEHALI S.H., DEHGHAN S., BAGHESTANI A.R., VELAYATI A., and VAHDAT SHARIATPANAHI Z. Association of admission serum levels of Vitamin D, calcium, Phosphate, magnesium and parathormone with clinical outcomes in neurosurgical ICU patients. Scientific Reports, 2018, 8: 1-8.
LAFI Z.M, IRSHAID Y.M, EL-KHATEEB M., AJLOUNI K.M., and HYASSAT D. Association of rs7041 and rs4588 Polymorphisms of the Vitamin D Binding Protein and the rs10741657 Polymorphism of CYP2R1 with Vitamin D Status Among Jordanian Patients. Genetic Testing and Molecular Biomarkers, 2015, 19(11): 629-636. DOI: 10.1089/gtmb.2015.0058.
Refbacks
- There are currently no refbacks.