Vitamin D and Its Association with Tumor Necrosis Factor-alpha
Level in Active Tuberculosis Patients in North Sumatera, Indonesia
Dina Keumala Sari
1*
, Ridha Dharmajaya
2
, Mutiara Indah Sari
3
and Dewi Masyithah
4
1
Nutrition Department, Faculty of Medicine, Universitas Sumatera Utara, Medan, Indonesia
2
Neurosurgery Department, Faculty of Medicine, Universitas Sumatera Utara, Medan, Indonesia
3
Biochemistry Department, Faculty of Medicine, Universitas Sumatera Utara, Medan, Indonesia
4
Parasitology Department, Faculty of Medicine, Universitas Sumatera Utara, Medan, Indonesia
Keywords: Vitamin D, Tumor, Tuberculosis
Abstract: Background: Mycobacterium tuberculosis is one of bacteria that caused tuberculosis disease. This disease
related to macro and micronutrient deficiency, also to inflammation process. One of deficiency micronutrient
is vitamin D deficiency, host cell response in including deficiency vitamin D, this would affect tumor necrosis
factor (TNF)-alpha level. Objective: We sought to determine whether there is an association between vitamin
D status and TNF-alpha status in active tuberculosis patients. Design: We conducted a cross-sectional study
of 25 man and women aged 18-60 years with active tuberculosis in North Sumatera, Indonesia. Parameters
were 25(OH)D, TNF-alpha serum level, biomolecular parameters such as albumin and hs-CRP also assessed.
The association was analysis using chi-square or fischer test. Results: the mean of study subjects age were
37.2±14.9 years old, there were 81.2% subjects categorized into vitamin D deficiency-insufficiency and
18.8% categorized into vitamin D sufficiency. All of the subjects had high TNF alpha level, There is an
association between vitamin D and TNF alpha serum level. Conclusions: based on this result, there was an
association between vitamin D and TNF-alpha serum level inactive tuberculosis.
1 INTRODUCTION
Tuberculosis had become a global health problem in
developed countries, including Indonesia, which have
economic and social problem. Previous research re-
ported higher macro and micronutrient deficiency, in-
cluding vitamin D deficiency in normal and active tu-
berculosis patient who lived in abundant sunlight ex-
posure (Sari et al., 2017a, 2017b). Vitamin D defi-
ciency related to higher inflammatory effect, host cell
respons with tuberculosis infecton showed higher
proinflammatory agent including TNF alpha, inter-
leukin (IL)-1, IL-2, IL-8, interferon (IFN) gamma,
and granulocyte-macrophage colony stimulating fac-
tor. The association between vitamin D deficiency
and TNF alpha in tuberculosis remain poorly under-
stood. Previous research focused on TNF alpha, be-
cause of higher inflammatory effect of this cytokine.
One of the theories is vitamin D would inhibit the
growth of M. tuberculosis in the macrophages
(Crowle et al., 1987; Rook et al., 1986). Vitamin D
also promote anti-M. tuberculosis responses through
many mechanisms in the macrophage. The mediators
that involved in the macrophage were nitrit oxide
(NO) (Rockett et al., 1998), NADPH oxidase (Sly et
al., 2003; Sly et al., 2001), cathelicidin (P. T. Liu et
al., 2006; Philip T et al., 2007; Yuk et al., 2009), and
autophagy (Yuk et al., 2009) mechanisms. The vita-
min D action that would inhibit progression of tuber-
culosis is impaired M. tuberculosis activity in the
macrophage and inhibit proinflammatory signalling,
including TNF alpha signalling.
The aims of this study were to determine whether
there is an association between vitamin D status and
TNF-alpha status in active tuberculosis patients in
Medan, North Sumatera, Indonesia.
2 METHOD
We conducted a cross-sectional study of 25 man and
women aged 18-60 years in North Sumatera, Indone-
sia April to July 2018, during the dry season (dry sea-
son in Indonesia is between April and October, higher
sunlight exposure, lower rainy season). The location
of recruitment was in Sumatera Island (Medan, North
856
Sari, D., Dharmajaya, R., Sari, M. and Masyithah, D.
Vitamin D and Its Association with Tumor Necrosis Factor-alpha Level in Active Tuberculosis Patients in Nor th Sumatera, Indonesia.
DOI: 10.5220/0010095408560860
In Proceedings of the International Conference of Science, Technology, Engineering, Environmental and Ramification Researches (ICOSTEERR 2018) - Research in Industry 4.0, pages
856-860
ISBN: 978-989-758-449-7
Copyright
c
2020 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
Sumatera, Indonesia) with latitude: 3.67 N and longi-
tude 97.55 E, average temperature: ±32
o
C (90
o
F).
This study was carried out after ethical approval was
obtained from the Health Research Ethics Committee
of Sumatera Utara University Medical School (No.
96/TGL/KEPK FK USU-RSUP HAM/2018) and all
participants were given written informed consent to
the study procedures. and all participants were given
written informed consent to the study procedures.
2.1 Study Participants
The subjects of this study consisted tuberculosis
patients in two community health centers with the
higher tuberculosis prevalence in Medan, North
Sumatera, Indonesia. Two community health centers
were in Puskesmas Teladan and Puskesmas Amplas.
There were man and women with various occupa-
tions, and taken purposively, there were 25 subjects
that include in this study. The inclusion criteria were
active tuberculosis patients within the range of 18-60
years old. Exclusion criteria were subjects with his-
tory of diabetes mellitus, myocardial infarction, renal
or liver dysfunction. In addition to those exclusion
criterias, subjects who were HIV, pregnant and lactat-
ing were also excluded.
2.2 Laboratory Analysis
We measured 25(OH)D serum concentration by
chemiluminescent immunoassay (CLIA) technology
(Diasorin, Stillwater, MN), measures were between
4.0 and 150 ng/mL. The lowest value was 4.0 ng/mL
which is based on an inter-assay precision 3.90% CV.
Reference range were <20 ng/mL categorized defi-
ciency, 20-30ng/mL (insuficiency), 30-100 ng/mL
(suficiency) (Sharma & Meena, 2017). To convert
ng/mL to nmol/L is multiply with 2.496. We meas-
ured albumin serum using architect C800 with color-
imetry method and to measured hs-CRP, we also use
architect C800 with different method which are turbi-
dimetry/immunoturbidimetry. Tumor necrosis factor
alpha analysis using ELISA (Enzyme-Linked Im-
munosorbent Assay) using Quantikine ELISA Hu-
man TNF alpha, R&D, USA.
2.3 Statistical Analysis
Continuous variables were expressed as continuous
variables as means±SDs. Categorical variables were
expressed as percentage proportions, using chi-square
to expressed significancy difference between two
groups, and Fischer test if the data did not met the
criterias. The p values <0.05 were considered statisti-
cally significant. We used SPSS program (version
11.5; SPSS Inc, Chicago, IL) to perform the analysis.
3 RESULTS AND DISCUSSIONS
The results will be discussed in 4 subsections, they
are clinical characteristic of study participants, vita-
min D and biomolecular parameters, and tumor ne-
crosis factor alpha serum level and its association.
3.1 Clinical Characteristic of Study
Participants
The aim of this study was todetermine whether
there is association between 25(OH)D with TNF al-
pha serum in active tuberculosis patients in tropical
country. In this study showed that the higher preva-
lence of age classification was in 31-40 years (64%,
mean±SD: 35.3±5.9 years), most of the subjects were
male (80%), and based on BCG scar, the subjects
were had clear BCG scar (Table 1). Based on this re-
sult, BCG scar seemed had no effect on tuberculosis
incidence, probably because of long state of malnutri-
tion or unsuccessful immunization. Protein and fat
had influence in nutrition status in tuberculosis pa-
tient. Low protein intake would lower immunity cell
activity, this would affect Mycobacterium tuberculo-
sis infection in malnutrition patients.
Table 1. Clinical characteristics
Variables
n(%)
Distribution by severity class/TB score
Class I
Class II
Class III
25 (100)
-
-
BCG scar
Clear
No scar
Dubious
17 (68)
3 (12)
5 (20)
Abbreviations:
SD: Standart Deviation
BCG: Bacille Calmette-Guérin
Vitamin D and Its Association with Tumor Necrosis Factor-alpha Level in Active Tuberculosis Patients in North Sumatera, Indonesia
857
3.2 Vitamin D and Biomolecular
Parameters
Based on this study, most of the active tuberculosis
patients had deficiency-insufficiency vitamin D
(90.2%), the effects of vitamin D to tuberculosis pro-
gression through vitamin D receptor (VDR). This
VDR activity, which is the signaling would induces a
series of antimicrobial responses such as induction of
autophagy, phagolysosomal fusion, release, and acti-
vation of the antimicrobial peptide cathelicidin, and
killing of intracellular Mycobacterium tuberculosis
(Gibney et al., 2008; Yoon et al., 2013). There also
many research about VDR gene, especially polymor-
phism of VDR gene which were TaqI and FokI. The
patient with polymorphism would resulting lower vit-
amin D serum level and higher infection of Mycobac-
terium tuberculosis. Previous studies also report
about polymorphism of TNF alpha polymorphism,
that would resulting ineffective of TNF alpha activity.
Low albumin serum showed lower immunity cell ac-
tivity, interestingly in this study showed most of the
subject had normal albumin serum level, but yet still
had active inflammation. This would need another ex-
planation to this phenomenon.
Table 2. Serum levels of 25-hydroxyvitamin D and biomol-
eculer parameters
Parameters Mean±SD;
n(%)
25-hydroxyvitamin D serum levels
(ng/mL)#
21.8±7.6
Vitamin D status, n (%)
Deficiency-insufficiency
Sufficiency
22 (88)
3 (22)
Albumin (g/dL)
Low
Normal
High
3.8±0.8
6(24)
19(76)
-
hs-CRP (mg/dL)
Low inflammation
Active inflammation
49.1±15.7
-
25(100)
Continues variable: mean ± SD; categorical variable: n (%);
SD=standard deviation
3.3 Tumor Necrosis Factor-alpha
Serum Level
Tumor Necrosis Factor-alpha (TNF-alpha) is a
17.5kDa, 157 amino acid protien that is a potent lym-
phoid factor, which produced cytotoxic effects on a
wide range of tumor cells and other target cells. In the
cell, TNF alpha is a pro-inflammatory and the pri-
mary mediator of immune regulation. The biosynthe-
sis of TNF alpha is a major secreted factor in activated
infected cells besides other proinflammatory cyto-
kines (P. D. Davies, Brown, & Woodhead, 1985; P.
D. O. Davies, 1985; Wilkinson et al., 2000). In tuber-
culosis infection, human macrophages exposed to M.
tuberculosis demonstrated a robust release of TNF-al-
pha degradation, including other inflammation pa-
rameter such as NF-kappa-B nuclear translocation
and other interleukin (P. D. Davies et al., 1985; P. D.
O. Davies, 1985).
In this study showed as presented in Table 3,
higher TNF alpha serum level, this probably because
of status of the study subjects. All of the study subject
were new cases and active tuberculosis. They also had
lower nutrition status, macro and micronutrient defi-
ciency including lower protein status and vitamin D
deficiency.
Table 3. TNF alpha serum levels
Parameters Mean±SD; n
(%)
Tumor necrosis factor alpha serum
levels (pg/mL)#
167.15±45.5
TNF alpha categorized, n (%)
Low
Normal
High
-
-
25 (100)
Continues variable: mean ± SD; categorical variable: n
(%);
SD=standard deviation
3.4 Association between Vitamin D and
TNF-alpha
There was an association between vitamin D status
and TNF alpha status in active tuberculosis patient,
this study reported that when there was a vitamin D
deficiency and insufficiency, it was an association
with higher TNF alpha serum level (Table 4). Other
previous results showed there was an association also
between vitamin D level and TNF alpha serum level
(Anandaiah et al., 2013).
ICOSTEERR 2018 - International Conference of Science, Technology, Engineering, Environmental and Ramification Researches
858
Table 4. The analysis of vitamin D and TNF alpha status
TNF alpha
status, n(%)
p
Nor-
mal
High
Vitamin D
status,
n(%)
Deficiency-
insuficiency
22
(88)
25
(100)
0.02
*
Sufficiency 3 (22) 0
Total 5
(100)
25
(100)
Using Fischer test, * significant
Limitation of this study was we have not yet get
the information about genetic polymorphism of vita-
min D receptor gene and TNF alpha gene. We also
had a limitation in the lower sample size.
4 CONCLUSIONS
Based on this result, there was an association between
vitamin D and TNF-alpha serum level in active tuber-
culosis.
ACKNOWLEDGEMENTS
The authors gratefully acknowledge that the present
research is supported by Ministry of Research and
Technology and Higher Education Republic of Indo-
nesia, Research and Community Service, Universitas
Sumatera Utara. The support is under the research
grant DRPM of Year 2018 Contract Number
263/UN5.2.3.1/PPM/KP-DRPM/2018.
REFERENCES
Anandaiah, A., Sinha, S., Bole, M., Sharma, S. K., Kumar,
N., Luthra, K., Han, X. (2013). Vitamin D rescues im-
paired Mycobacterium tuberculosis-mediated tumor
necrosis factor release in macrophages of HIV-sero-
positive individuals through an enhanced Toll-like re-
ceptor signaling pathway in vitro. Infection and Immun-
ity, 81(1), 2–10.
Crowle, A. J., Ross, E. J., & May, M. H. (1987). Inhibition
by 1, 25 (OH) 2-vitamin D3 of the multiplication of vir-
ulent tubercle bacilli in cultured human macrophages.
Infection and Immunity, 55(12), 2945–2950.
Davies, P. D., Brown, R. C., & Woodhead, J. S. (1985). Se-
rum concentrations of vitamin D metabolites in un-
treated tuberculosis. Thorax, 40(3), 187–190.
Davies, P. D. O. (1985). A possible link between vitamin D
deficiency and impaired host defence to Mycobacte-
rium tuberculosis. Tubercle, 66(4), 301–306.
Gibney, K. B., MacGregor, L., Leder, K., Torresi, J., Mar-
shall, C., Ebeling, P. R., & Biggs, B.-A. (2008). Vita-
min D deficiency is associated with tuberculosis and la-
tent tuberculosis infection in immigrants from sub-Sa-
haran Africa. Clinical Infectious Diseases, 46(3), 443–
446.
Liu, P. T., Stenger, S., Li, H., Wenzel, L., Tan, B. H.,
Krutzik, S. R., Meinken, C. (2006). Vitamin D3–Trig-
gered Antimicrobial Response—Another Pleiotropic
Effect beyond Mineral and Bone Metabolism Toll-Like
Receptor Triggering of a Vitamin D–Mediated Human
Antimicrobial Response. Science 311: 1770–1773,
2006. Journal of the American Society of Nephrology,
17(11), 2949–2953.
Liu, Philip T., Stenger, S., Tang, D. H., & Modlin, R. L.
(2007). Cutting edge: vitamin D-mediated human anti-
microbial activity against Mycobacterium tuberculosis
is dependent on the induction of cathelicidin. The Jour-
nal of Immunology, 179(4), 2060–2063.
Rockett, K. A., Brookes, R., Udalova, I., Vidal, V., Hill, A.
V., & Kwiatkowski, D. (1998). 1, 25-Dihydroxyvita-
min D3 induces nitric oxide synthase and suppresses
growth of Mycobacterium tuberculosis in a human
macrophage-like cell line. Infection and Immunity,
66(11), 5314–5321.
Rook, G. A., Steele, J., Fraher, L., Barker, S., Karmali, R.,
O’riordan, J., & Stanford, J. (1986). Vitamin D3,
gamma interferon, and control of proliferation of My-
cobacterium tuberculosis by human monocytes. Immu-
nology, 57(1), 159.
Sari, D. K., Tala, Z. Z., Lestari, S., Hutagalung, S., & Ganie,
R. A. (2017a). Lifestyle differences in rural and urban
areas affected the level of vitamin D in women with sin-
gle nucleotide polymorphism in North Sumatera. Asian
J Clin Nutr, 9(2), 57–63.
Sari, D. K., Tala, Z. Z., Lestari, S., Hutagalung, S., & Ganie,
R. A. (2017b). Vitamin D receptor gene polymorphism
among Indonesian women in North Sumatera. Asian J
Clin Nutr, 9(1), 44–50.
Sharma, S., & Meena, L. S. (2017). Potential of Ca 2+ in
Mycobacterium tuberculosis H 37 Rv pathogenesis and
survival. Applied Biochemistry and Biotechnology,
181(2), 762–771.
Sly, L. M., Hingley-Wilson, S. M., Reiner, N. E., &
McMaster, W. R. (2003). Survival of Mycobacterium
tuberculosis in host macrophages involves resistance to
apoptosis dependent upon induction of antiapoptotic
Bcl-2 family member Mcl-1. The Journal of Immunol-
ogy, 170(1), 430–437.
Sly, L. M., Lopez, M., Nauseef, W. M., & Reiner, N. E.
(2001). 1alpha, 25-Dihydroxyvitamin D3-induced
monocyte antimycobacterial activity is regulated by
phosphatidylinositol 3-kinase and mediated by the
NADPH-dependent phagocyte oxidase. Journal of Bio-
logical Chemistry.
Wilkinson, R. J., Llewelyn, M., Toossi, Z., Patel, P., Pasvol,
G., Lalvani, A., Davidson, R. N. (2000). Influence of
vitamin D deficiency and vitamin D receptor polymor-
phisms on tuberculosis among Gujarati Asians in west
Vitamin D and Its Association with Tumor Necrosis Factor-alpha Level in Active Tuberculosis Patients in North Sumatera, Indonesia
859
London: a case-control study. The Lancet, 355(9204),
618–621.
Yoon, C., Davis, J. L., & Cattamanchi, A. (2013). C-reac-
tive protein and tuberculosis screening: a new trick for
an old dog? The International Journal of Tuberculosis
and Lung Disease: The Official Journal of the Interna-
tional Union against Tuberculosis and Lung Disease,
17(12), 1656–1656.
Yuk, J.-M., Shin, D.-M., Lee, H.-M., Yang, C.-S., Jin, H.
S., Kim, K.-K.Jo, E.-K. (2009). Vitamin D3 induces au-
tophagy in human monocytes/macrophages via catheli-
cidin. Cell Host & Microbe, 6(3), 231–243.
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