Article Type: Research Article Article Citation: Mazin Babekir Musa, Ismail Abdalsamad, Najwa. A.Mhmoud, Haghamad Allzain, and Sahar M Bakhiet.
(2021). TOLL LIKE RECEPTOR-4 GENE ASPARTATE 299 GLYCINE POLYMORPHISM IN
SUDANESE PATIENTS WITH MYCETOMA. International Journal of Research
-GRANTHAALAYAH, 9(2), 187-192. https://doi.org/10.29121/granthaalayah.v9.i2.2021.3492 Received Date: 28 January 2021 Accepted Date: 28 February 2021 Keywords: Mycetoma DNA TLR-4 PCR RFLP Asp GLY ABBREVIATIONS Asp, Aspartate; Gly , glycine; TLR-4, toll like receptor-4; DNA,
deoxyribonucleic acid; PCR, polymerase
chain reaction; RFLP, restriction fragment length polymorphism ; SNP, single
nucleotide polymorphism; rs, restriction site. Background: Mycetoma is a neglected tropical disease
characterized by deformity and disabilities with various medical, health, and
socioeconomic impacts on the affected communities. The etiological factors
associated with Mycetoma have not been fully understood, however genetic
predisposition and inflammation are considered as Mycetoma risk factors. Toll
like receptors (TLRs) are key players in the innate immune response and play a
great role in immune-surveillance and inflammation. This study was conducted to
investigate the potential role of TLR4 polymorphism (Asp299Gly) as a risk
factor for development of Mycetoma.
Objectives: To determine the presence of TLR4 polymorphism
(Asp299Gly) in Sudanese Mycetoma patients as well as measuring allele frequency
and genotype distribution of this mutation among Mycetoma patients and healthy controls. Material and Methods: The current study included ninety
five (95) subjects, of whom fifty (50) were confirmed Mycetoma patients
and forty five (45) were healthy volunteer controls. It was conducted at the
Institute of Endemic Diseases and Mycetoma Research Centre; University of
Khartoum in the period, from June 2015 to June 2016. DNA was isolated from
blood samples of study subjects and TLR-4 gene polymorphism Asp299Gly was
determined using PCR-RFLP with Nco1 restriction enzyme. Genotypes distribution
and allele frequencies in the two groups were measured. Results and conclusion: There was
insignificant difference in allele distribution of TLR4 (Asp299Gly) A/G (rs 4986790) in Mycetoma patients compared with the healthy
controls. TLR4 (Asp299Gly) polymorphism (rs 4986790)
was found in twenty(20) out of fifty
(50) Sudanese patients with Mycetoma , that is forty percent (40%) and twenty seven (27) out
of forty five (45) healthy control, that is sixty percent (60%). Further studies are needed in a large and ethnically diverse population to determine the impact of the TLR-4 polymorphism in the susceptibility to Mycetoma.
1. INTRODUCTIONMycetoma is a unique neglected tropical disease. It is a morbid subcutaneous chronic progressive inflammatory condition caused by certain fungi (eumycetoma) or bacteria (actinomycetoma) [1], [2], [3]. The organisms inhabit the soil and can enter the subcutaneous tissue via traumatic inoculation. Mycetoma commonly affects adults aged between 20 to 40 years, predominantly males. Both forms of Mycetoma present as a progressive, subcutaneous swelling, although Actinomycetoma has a more rapid course. Multiple nodules develop which may produce pus that drains through sinuses, discharging grains during the active phase of the disease [4]. There are more than seven thousands (7000) patients who received treatments at the Mycetoma Research Centre-University of Khartoum [5]. The innate immune system detects invading pathogens through pattern-recognition receptors that represents the first line of host defense. It comprises a family of receptors termed Toll-like receptors (TLRs).These proteins recognize and bind to microbial pathogens, thereby inducing rapid innate immune response to microbial invaders [6]. In previous studies it was shown that TLRs have been implicated in the recognition and triggering of immunity during fungal infections in mammals [7], [8]. Toll-like 4 (TLR4) is an essential component of the innate immune response to various microorganisms. Genetic polymorphisms in TLR4 are often associated with susceptibility to fungal diseases. Additionally it was reported that TLR4 mediate cytokine release in response to different developmental stages of A. fumigatus [9], [10]. Furthermore Leukocyte activation induced by Candida albicans also involves TLR2 and TLR4 triggering [11], [12]. Direct sequencing of TLR4 gene led to the
identification of single-nucleotide polymorphism (SNP), an A-G substitution at
nucleotide position +896 resulting in an amino acid replacement .Asp299Gly SNP
in the third exon of TLR-4 gene has a positive correlation with susceptibility
to aspergillosis, gram-negative sepsis, atherosclerosis, asthma, malaria, and
Helicobacter pylori-induced gastric cancer [13], [14], [15]. The aim of this study was to assess the distribution of TLR4 (Asp299Gly) polymorphism in Sudanese patients with Mycetoma. 2. MATERIAL AND METHODSStudy design: This study was a hospital based case control (pilot study) conducted at the Institute of Endemic Diseases and Mycetoma Research Centre; University of Khartoum. The The study included ninety five (95) subjects of whom , fifty (50) confirmed Mycetoma patients and (45) healthy controls. In the period from June 2015 to June 2016. Study subjects: Mycetoma patients were diagnosed using careful interview, meticulous clinical examinations and specific investigations included culture, fine needle aspiration (FNA) for cytology and histopathological examination of surgical biopsies. In the latter, different staining techniques were used. The commonest is haematoxylin and eosin (H&E) stain which is adequate for identifying most of the grains types. Grains obtained from surgical biopsies were inoculated in different media. Eumycetes grains were cultured in blood agar and Sabouraud dextrose agar and were incubated at 37°C for six - eight weeks. The controls group included healthy Sudanese controls of matched age, sex and ethnic background. Isolation of genomic DNA: DNA was extracted from peripheral blood using guanidine
hydrochloride method. Proteinase K, 300 µl of 7.5M
Ammonium Acetate, and 1ml of 6M Guanidine Chloride were added and incubated at
37˚C overnight. Next day samples were cooled to room temperature and 1ml
pre-chilled Chloroform was added and centrifuged at 3000 rpm for 20 minutes.
Three layers were separated. The supernatant was collected to a new tube. 10 ml
of pre-chilled absolute Ethanol were added and mixed gently. Samples was placed
into -20˚c freezer for 24 hours. Next day after vortexing
and centrifuging for 15 minutes at 3000 rpm the supernatant was discarded. Then
washing by 4ml 70% ethanol was performed. After drying from alcohol, DNA pellet
was resuspended in 200µl of deionized water and was placed into 4˚C for
one day to insure total dissolving of the pellet. 3. GENOTYPING OF TLR 4 ASP299GLY POLYMORPHISMPolymerase chain reaction (PCR) amplification of TLR-4 gene for the detection of Asp299Gly SNP was done using gene-specific primers sequence: F-GATTAGCATACTTAGACTACTACCTCCATG R-GATCAACTTCTGAAAAAGCATCCCAC Amplification reaction was carried out in final volume of 20 µl using Maxime PCR PreMix Kit (i-Tag) Cat. No25025 (for 20 µl rxn. 96 tubes) containing i - Tag DNA Polymerase (5U / µl) dNTPs 2.5 mM each, Reaction Buffer (10x) 1x. For each20 µl reaction, 2 µl of DNA were added to the mixture (50 ng / µl of DNA) primer (10 pmol / µl), then completed to 20 µl with double distilled water. The amplification was done for 35 cycles: 30 s denaturation at 94°C, 30s annealing at 55°C, 30 s extension at 72°C, with 10 min final extension at 72°C. The amplified product was visualized under UV transilluminator on 2% agarose gel containing ethidium bromide (0.5 μg/ml). The resulting PCR product was digested for 5 hours with Nco1restriction enzyme .The digest reaction was set up using 4 µl PCR product, 1 µl 10 x enzyme buffer , 0.5 µl Nco 1 enzyme and 4.5 µl water then visualized on 3% agarose gel stained with ethidium bromide. Ethical consideration This study was approved by the ethical committee of the Institute of Endemic Diseases – University of Khartoum -Sudan. Written informed consent was obtained from patients and controls. Names and personal data were completely secured and transferred to codes to keep the privacy of patients’ identities. 4. STATISTICAL ANALYSISAll statistical calculations were performed using SPSS for windows, version 20. The data were cleaned and checked for consistency before entering it for analysis. Genotype distribution and allele
frequencies in different groups were compared by chi-square test. Results were
considered significant, at level of (P ≤ 0.05). 5. RESULTThis study included ninety five (95) participants, fifty (50) Patients and forty five (45) controls that were assessed for the presence of TLR4 Asp299Gly. The demographic characteristics of the patients at study entry are Myctoma patients in study population , of whom thirty eight (38) males and twelve (12) females, with male to female ratio 3.2:1 and a mean age of 34.64 ± 15 years.
Figure
1: PCR gel electrophoresis
on 2.0% agarose gel
.1 and 2 PCR
products of 248 bp DNA fragments, 3 and 4 negative controls (no DNA) For the purpose of polymorphism genotyping PCR-RFLP was used using Nco1 restriction enzyme. This resulted in: homozygous wild type allele with single band 248 bp lengths, mutant type allele with twin bands 222 and 26 bp length. On comparing the frequency of genotypes with respect to Asp299Gly, it was found that Wild type (allele A): Mutant type (allele G): had no association [OR 0.44, 95% CI , (0.195-1.011) P =0.052] with susceptibility to Mycetoma. Table 1: The summary of RFLP result:
Figure 2: (3%) Agarose gel showing restriction digestion of PCR products. 1,3,5,6,7,8 and 12 are wild-type ;9,10,11,13,and 14 are heterozygous ; 15 and 16 are negative controls . Table 2: Allele
frequency of (Asp299Gly) in Mycetoma patient compared to the controls
6. DISCUSSIONMycetoma is endemic in many countries in the tropics and subtropics although most cases are reported from Sudan, Mexico, and India. Of the different immunologic molecules which are thought to be implicated in the pathogenesis of Mycetoma are toll like receptors. The current study was conducted to investigate the effect of TLR4 mutation (rs 4986790) in vulnerability to Mycetoma among Sudanese population. This study to the of knowledge exist , is the first study to address association of this mutation with the disease in Sudan. The TLR4 (rs 4986790) mutation involves replacement of aspartate by glycine at amino acid residue 299, at the third exon of the conserved regions of TLR4. This takes place when there is an A to G substitution at nucleotide +896 from the start codon of the TLR4 gene. These single nucleotide polymorphisms (SNPs) in the extracellular domain of TLR4 may alter the ligand binding capacity [16] and disturbs the pro- and anti-inflammatory cytokines, hence modulating the risk of chronic inflammation and development of disease. The association of different SNPs and susceptibility to Mycetoma has been reported previously. In one study by Wendy et al , significant differences in allele distribution for IL-8 (CXCL8), its receptor CXCR2, thrombospondin-4 (TSP-4), NO synthase 2 (NOS2), and complement receptor 1 (CR1) were reported in Mycetoma patients [17] . Further In another study by Najwa et al , carried out at the Mycetoma Research Center in University of Khartoum ,in Sudan concluded that a significant association between susceptibility to Mycetoma and interleukin-10 cytokine and CC chemokine ligand 5 polymorphisms [18]. In the current study the proportions of individuals carrying TLR4 Asp299Gly were different for cases and controls (40% and 60%) respectively. The majority of Mycetoma patients in this study were males, with male to female Ratio (3.2:1) , this agrees with the results obtained by Lopez-Martinez et al [19], Castro et al [20] and Fahal [4]: who found that in Mycetoma infected individual male to female ratios were in the range of (1.6-6.6:1). Our findings demonstrated no association of this SNP with Mycetoma as most of the patients had AG genotype (40%) as compared to controls (60%). However, this result is contrary to Lorenz, et al [15], Ahmed, et al [21] and Koldehoff , et al [22], who found a significant association between the TLR4 (Asp299Gly) polymorphism and susceptibility to aspergillosis, gram-negative sepsis, atherosclerosis, asthma, malaria, and Helicobacter pylori-induced gastric cancer. This indifference could be explained by the small sample size in our study. Most of the control study subjects held the mutant type allele with higher frequency being (60%) as compared with only (40%) of cases, which may contribute in the protection against the disease. This agreed with Sellers et al [23], Da Silva Santos et al [24] and Hawn et al [25], who stated that TLR4(Asp299Gly) polymorphism had conferred a decreased risk to periodontitis caused by P. gingivalis, malaria and Legionnaires' disease respectively. 7. CONCLUSION AND RECOMMENDATIONSTLR4 (Asp299Gly) polymorphism (rs 4986790) was found in twenty(20) out of fifty (50) Sudanese patients with Mycetoma , that is forty percent (40%) and twenty seven (27) out of forty five (45) healthy control, that is sixty percent (60%).It is recommended that More subjects are to be included in the study to empower the study furthermore. AUTHOR’S
CONTRIBUTIONS
1) Mazin Babekir Musa : the principal investigator, conceived the idea , conducted laboratory analysis , collected the data, interpreted the data generated and wrote the draft of the manuscript. 2) Ismail Abdalsamad Abdalla: co- researcher, contributed in data collection, laboratory analysis and interpreted the data generated and wrote the draft of the manuscript. 3) Najwa. A. Mhmoud: contributed in the laboratory analysis. 4) Dr. Haghamad Allzain : provided critical suggestions and comments and edited the manuscript. 5) Sahar M Bakhiet: the supervisor of the research SOURCES OF FUNDINGThis research received no specific grant from any funding agency in the public, commercial, or not-for-profit sectors. CONFLICT OF INTERESTThe author have declared that no competing interests exist. ACKNOWLEDGMENTNone. REFERENCES
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