Correlation of interleukin-18 gene polymorphism with the susceptibility of condyloma acuminatum in Chinese population

Changyuan Wang Li Wei Weilin Chu Haiyang Yu Xinjuan Yu Chunxia Li About the authors

ABSTRACT

Host immunogenetic setting is involved in the regulation of human papillomavirus (HPV) infection and development of condyloma acuminatum (CA). We investigated the correlation of two common single nucleotide polymorphisms (SNPs) (−607C/A and −137G/C) of IL-18 with the susceptibility of CA in a large Chinese cohort. Out of 408 CA patients analyzed, 300 had HPV infection transmitted through sexual contact (SC) and 108 through non-sexual contact (NSC). In addition, 360 healthy volunteers were enrolled as controls. SNPs at positions −607C/A and −137G/C in IL-18 promoter were analyzed. Comparing CA patients to healthy controls, no dominant relevance was found between the IL-18 promoter −607 C/A or −137G/C polymorphisms and the CA disease either identified genotypically (p > 0.05) or by allelically (p > 0.05). However, the IL-18 promoter −137G/C polymorphism genotype and allele frequencies in the NSC CA group, but not between in the SC group, were significantly higher than in the controls. There was no dominant relevance between IL-18-607C/A polymorphism genotype and allele frequencies among SC, NSC CA patients, and controls. Our study demonstrates that polymorphism −137G/C in IL-18 promoter is significantly correlated with risk of CA in NSC patients.

Keywords:
Condyloma acuminatum; Human papillomavirus; Cytokine; Single nucleotide polymorphism; IL-18

Introduction

Condyloma acuminatum (CA) is a common sexually transmitted disease, which is caused by human papillomavirus (HPV) infection. HPV is a highly diverse virus and can be classified into over 160 types. HPV infection is also associated with malignant disorders like cervical cancer, penile cancer and their precursors.11 Raffaella Ghittoni RA, Chiocca Susanna, Tommasino Massimo. Role of human papillomaviruses in carcinogenesis. Ecancermedicalscience. 2015;9. HPV genotype was reported to be associated with high-risk versus intermediate-risk outcome and survival of invasive cervical cancer.22 de Cremoux P, de la Rochefordiere A, Savignoni A, Kirova Y, Alran S, Fourchotte V, et al. Different outcome of invasive cervical cancer associated with high-risk versus intermediate-risk HPV genotype. Int J Cancer. 2009;124:778-82.,33 Nogueira Dias Genta ML, Martins TR, Mendoza Lopez RV, Sadalla JC, de Carvalho JPM, Baracat EC, et al. Multiple HPV genotype infection impact on invasive cervical cancer presentation and survival. PLoS One. 2017;12:e0182854. Previous studies have suggested that other factors including host immunogenetics are important in the pathogenesis of these HPV-related diseases.44 Aydogan K, Ozakin C, Saricaoglu H, Sigirli D, Oral B. Relationship between the interleukin-6-174 gene and mannose-binding lectin codon 54 gene polymorphisms and condyloma acuminatum. J Eur Acad Dermatol Venereol. 2014;28:1306-12.,55 Moerman-Herzog A, Nakagawa M. Early defensive mechanisms against human papillomavirus infection. Clin Vaccine Immunol. 2015;22:850-7. Some studies have shown that the polymorphisms of human leukocyte antigen (HLA) genes are related with HPV infection.66 Bhaskaran M, ArunKumar G. A meta-analysis of association of Human Leukocyte Antigens A, B, C, DR and DQ with Human Papillomavirus 16 infection. Infect Genet Evol. 2019;68:194-202.,77 Chambuso R, Ramesar R, Kaambo E, Denny L, Passmore JA, Williamson AL, et al. Human Leukocyte Antigen (HLA) Class II -DRB1 and -DQB1 alleles and the association with cervical cancer in HIV/HPV co-infected women in South Africa. J Cancer. 2019;10:2145-52. HLA-G and HLA-DQB1 polymorphisms may represent risk factors in HPV infected subjects.88 Bahls L, Yamakawa R, Zanao K, Alfieri D, Flauzino T, Delongui F, et al. Human Leukocyte Antigen Class I and Class II polymorphisms and serum cytokine profiles in cervical cancer. Int J Mol Sci. 2017;18.,99 Bortolotti D, Gentili V, Rotola A, Di Luca D, Rizzo R. Implication of HLA-G 3' untranslated region polymorphisms in human papillomavirus infection. Tissue Antigens. 2014;83:113-8. However, there have been few researches on genetic factors associated with CA or HPV infection.

The innate and cell-mediated immune responses are both crucial in the immunity against viruses, and inflammatory cytokines play key roles in both immune responses through modulating viral replication.1010 zur Hausen H. Papillomaviruses and cancer: from basic studies to clinical application. Nat Rev Cancer. 2002;2:342-50.,1111 Shrivastava G, Leon-Juarez M, Garcia-Cordero J, Meza-Sanchez DE, Cedillo-Barron L. Inflammasomes and its importance in viral infections. Immunol Res. 2016;64:1101-17. Interleukin (IL)-18 is a member of the IL-1 inflammatory cytokine super family, which is produced primarily by activated macrophages and monocytes. At first, IL-18 was mistakenly believed to be an interferon (IFN)-γ inducing factor1212 Okamura H, Tsutsi H, Komatsu T, Yutsudo M, Hakura A, Tanimoto T, et al. Cloning of a new cytokine that induces IFN-gamma production by T cells. Nature. 1995;378:88-91. possessing other major immunomodulatory functions, including the induction and synthesis of IFN-γ in T cells and natural killer cells, stimulating naïve T cells to differentiate into Th1 cells, as well as enhancing killing competence of T cells and natural killer cells.1313 Micallef MJ, Ohtsuki T, Kohno K, Tanabe F, Ushio S, Namba M, et al. Interferon-gamma-inducing factor enhances T helper 1 cytokine production by stimulated human T cells: synergism with interleukin-12 for interferon-gamma production. Eur J Immunol. 1996;26:1647-51. Recently, IL-18 has been implicated in host resistance to viral infection and amplification.1414 Fujikura D, Muramatsu D, Toyomane K, Chiba S, Daito T, Iwai A, et al. Aureobasidium pullulans-cultured fluid induces IL-18 production, leading to Th1-polarization during influenza A virus infection. J Biochem. 2018;163:31-8.,1515 Valero N, Mosquera J, Torres M, Duran A, Velastegui M, Reyes J, et al. Increased serum ferritin and interleukin-18 levels in children with dengue. Braz J Microbiol. 2019;50:649-56.

The IL-18 gene is positioned on chromosome 11q22.2-q22.3, and has six exons and five introns.1616 Kruse S, Kuehr J, Moseler M, Kopp MV, Kurz T, Deichmann KA, et al. Polymorphisms in the IL 18 gene are associated with specific sensitization to common allergens and allergic rhinitis. J Allergy Clin Immunol. 2003;111:117-22. Single nucleotide polymorphisms (SNPs) in the promoter region of IL-18 have been reported to play a critical role in controlling the IL-18 gene expression by influencing its transcriptional factor binding ability. Two of the most common SNPs, −607C/A and −137G/C, have been shown to be correlated with IL-18 gene transcription and IL-18 protein production, resulting in higher levels of IL-18 in humans.1717 Sanchez E, Palomino-Morales RJ, Ortego-Centeno N, Jimenez-Alonso J, Gonzalez-Gay MA, Lopez-Nevot MA, et al. Identification of a new putative functional IL18 gene variant through an association study in systemic lupus erythematosus. Hum Mol Genet. 2009;18:3739-48. Our previous study showed that the serum level of IL-18 in CA patients was significantly higher than in healthy controls.1818 Li CXWL, Bi JP, Zhang JM, Li YX. Levels of IL-18, IFN-γ and IL-10 in Serum of Patient's with Condyloma Acuminatum. Zhong Guo Pi Fu Xing Bing Xue. 2011;25:284-5. These two functional IL-18 SNPs have been investigated in many diseases, including various cancers such as cervical cancer, bladder cancer, oral cancer, and viral diseases such as hepatitis B virus and HPV infections.1919 Jaiswal PK, Singh V, Srivastava P, Mittal RD. Association of IL-12, IL-18 variants and serum IL-18 with bladder cancer susceptibility in North Indian population. Gene. 2013;519:128-34.

20 Tsai HT, Hsin CH, Hsieh YH, Tang CH, Yang SF, Lin CW, et al. Impact of interleukin-18 polymorphisms -607A/C and -137G/C on oral cancer occurrence and clinical progression. PLoS One. 2013;8:e83572.

21 Bao J, Lu Y, Deng Y, Rong C, Liu Y, Huang X, et al. Association between IL-18 polymorphisms, serum levels, and HBV-related hepatocellular carcinoma in a Chinese population: a retrospective case-control study. Cancer Cell Int. 2015;15:72.
-2222 Pontillo A, Bricher P, Leal VN, Lima S, Souza PR, Crovella S. Role of inflammasome genetics in susceptibility to HPV infection and cervical cancer development. J Med Virol. 2016;88:1646-51. However, no research has been conducted on the involvement of IL-18 SNPs in CA.

In this study, for the first time, we investigated the correlation of −607C/A and −137G/C SNPs in the IL-18 gene promoter region with the susceptibility of CA in a Chinese patient cohort. CA patients were further divided into sexual contact group and non-sexual contact group to explore the potential role of IL-18 gene promoter SNPs in CA.

Materials and methods

Subjects

As shown in Fig. 1, 408 cases of CA patients were recruited into the study for 2014. In order to study the influence of IL-18 promoter −607C/A, −137G/C SNPs on CA susceptibility when the HPV was not acquired by sexual contact, CA patients were divided into two groups based on the HPV transmission pathway: sexual contact (SC) group (n = 300) and non-sexual contact (NSC) group (n = 108). All patients had visible lesions and were positive for acetowhite test and HPV screening. Non-sexual transmission was defined as either no sexual behavior before diagnosis of CA, or patients whose regular sex partner had no CA history. In addition, 360 healthy controls were recruited in Qingdao Municipal Hospital from January 2013 to December 2014. The study was approved by the Qingdao Municipal Hospital Group. All participants in this study were informed and gave a written consent.

Fig. 1
The clinical summary of the study patients and healthy controls.

DNA extraction and IL-18 promoter SNP genotyping

Approximately 4 ml of peripheral blood was obtained from each subject. Genomic DNA was extracted using biotech DNA kit (Qiagen, Valencia, CA, USA) with Nucleic Acid Automatic Extraction System (iAUTOMAGtm) per manufacturer's instructions. 10 ng of genomic DNA was used for the amplification of IL-18 −607C/A(rs1946518), −137G/C(rs187238) polymorphism region (839bp) using primers 5'-CTTTGCTATCATTCCAGGAA-3' (forward) and 5'-AGGAGGGCAAAATGCACTGG-3' (reverse), on a GeneAmp PCR System 7300 thermal cycler (Applied Biosystems, Waltham, MA, USA). Amplified products were analyzed by 1.5% agarose gel electrophoresis, stained with ethidium bromide, and observed under ultraviolet light. The amplicons were sequenced directly in an ABI 3730 genetic analyzer (Applied Biosystems, Waltham, MA, USA), then the sequenced result was analyzed by Chroms 1.62 and DNAMAN 6.0. Representative sequences of −607A/C and −137C/G polymorphisms in IL-18 promoter region are shown in Fig. 2.

Fig. 2
(A) Representative sequences of IL-18 promoter polymorphism of −607A/C. (B) Representative sequences of IL-18 promoter polymorphism of −137C/G.

Statistical analysis

Genotypic and allelic frequencies of the IL-18 −607C/A and −137G/C were obtained from sequencing analysis and direct counting. Statistical analysis was performed using the SPSS software V17.0 (SPSS, Inc., Chicago, IL). The Student's t-test was used to systematically describe discrepancies in clinical data between cases and controls. The Hardy-Weinberg equilibrium was evaluated for each SNP in both patient and control groups by chi-square analysis. The differences in genotypic, allelic, and carrier frequencies between patients and controls were determined by chi-square test. Odds ratio (OR) and 95% confidence interval were also calculated. P-values of <0.05 were considered as statistically significant.

Result

Clinical characteristics

As shown in Table 1, the clinical characteristics of the CA patient group (n = 408) and the healthy control group (n = 360) were comparable. They both had similar median age (32.45 ± 9.20 vs 33.31 ± 8.58 years) and sex distribution, with no significant differences (p = 0.183 and 0.928, respectively).

Table 1
Medical history of patients with condyloma acuminatum with sexual contact (SC), or non-sexual contact (NSC).

IL-18 promoter polymorphisms frequencies in overall CA patient compared to healthy control group

The IL-18 promoter region was sequenced to detect the −607C/A, −137G/C SNPs in all CA patients and healthy controls. Genotypes and allele frequencies of both IL-18 promoter −607C/A, −137G/C SNPs in different groups are summarized in Table 2. There were no significant differences regarding the IL-18 −607C/A and −137G/C polymorphism frequencies between CA group and control group. IL-18 −607C/A, −137G/C polymorphism distributions were in accordance with Hardy-Weinberg equilibrium in CA patients and healthy controls, with all p-values were greater than 0.05 (Table 2). These results indicated that the IL-18 −607C/A and −137G/C polymorphism genotypes or allele frequencies were not associated with CA disease in the overall CA patient group.

Table 2
Associations of IL-18 -607C/A and -137G/C SNPs with condyloma acuminatum.

IL-18 promoter polymorphism frequencies in different CA groups based on HPV transmission pathway compared to healthy control group

There was no strong correlation between the IL-18 promoter SNPs and the CA disease by comparing the overall CA group to the control group. As CA is caused by HPV which is most commonly acquired by sexual contact, this could minimize the host immunogenetic background contribution to the CA disease.

Next, CA patient group were further divided into two groups based on the HPV transmission pathway, as sexual contact group (SC group, n = 300) and non-sexual contact group (NSC group, n = 108). IL-18 promoter −607C/A, −137G/C SNP genotypes and allele frequencies were re-analyzed based on the new group assignment (Table 3). There was no significant correlation of IL-18 −607C/A polymorphism alleles and genotype frequencies among SC CA patients, NSC CA patients and healthy controls. There was also no statistical difference between SC CA patients and control group with regard to distributions of genotypic and allelic frequencies of the IL-18 −137G/C SNPs, either. Interestingly, the frequencies of the IL-18 −137GC (p = 0.028; OR = 1.71, 1.05-2.78), CC (p = 0.027; OR = 2.62, 1.09-6.32) genotype and C allele (p = 0.002; OR = 1.78, 1.24-2.58) significantly increased in the NSC CA patient group compared to healthy controls. These results indicated IL-18 −137GC or CC might be a biomarker to predict the susceptibility of CA disease acquired by non-sexual contact. Clinically, the IL-18 −137GC or CC could be risk factors for CA acquired through NSC.

Table 3
Associations of IL-18 -607C/A and -137G/C SNPs with condyloma acuminatum patients with sexual contact (SC), or non-sexual contact (NSC).

Discussion

CA, also known as genital warts, is a contagious disease in the genital and peripheral anus region caused by HPV infection. There are two thought-provoking phenomenons: one is that HPV is so common that most people in their sexually active period will be infected at least once in their lives.2323 Park IU, Introcaso C, Dunne EF. Human papillomavirus and genital warts: a review of the evidence for the 2015 centers for disease control and prevention sexually transmitted diseases treatment guidelines. Clin Infect Dis. 2015;61:S849-55. However, 90% of HPV infections are eliminated by the immune system within two years. Second, HPVs could give rise to a series of diseases, including most cervical cancers, most anal cancers, and almost half of head and neck cancers. They are also involved in the development of troublesome benign epithelial lesions, such as CA, bowenoid papulosis, and laryngeal papillomas. These results suggest that host immunological condition and genetic setting may play important roles in the occurrence and development of HPV-related diseases. One study showed that the invariant natural killer T (iNKT) cells might exhibit a vital effect on restraining immunity. iNKT cells were found accumulated in cervical tissues during the onset and development from HPV infection to cervical intraepithelial neoplasia (CIN), demonstrating that iNKT cells and IFN-γ expression could also be associated with the HPV infection period.2424 Hu T, Yang P, Zhu H, Chen X, Xie X, Yang M, et al. Accumulation of invariant NKT cells with increased IFN-gamma production in persistent high-risk HPV-infected high-grade cervical intraepithelial neoplasia. Diagn Pathol. 2015;10:20. Another study implied that IL-18 played an important role in the process of IFN-γ induction in an immuno-suppressive cutaneous environment resulted from HPV oncogene-actuated hyperplasia.2525 Gosmann C, Frazer IH, Mattarollo SR, Blumenthal A. IL-18, but not IL-12, induces production of IFN-gamma in the immunosuppressive environment of HPV16 E7 transgenic hyperplastic skin. J Invest Dermatol. 2014;134:2562-9. Interestingly, chronic IL-18 activation could inhibit iNKT cells,2626 Lind SM, Kuylenstierna C, Moll M, E DJ, Winqvist O, Lundeberg L, et al. IL-18 skews the invariant NKT-cell population via autoreactive activation in atopic eczema. Eur J Immunol. 2009;39:2293-301. and compromised NKT cell activity was observed in CA patients.2727 Cauda R, Tyring SK, Grossi CE, Tilden AB, Hatch KD, Sams WM, et al. Patients with condyloma acuminatum exhibit decreased interleukin-2 and interferon gamma production and depressed natural killer activity. J Clin Immunol. 1987;7:304-11. These two earlier studies together might also hint a negative correlation between IL-18 and severity of CA via iNKT cells.

In the network of inflammatory cytokines, IL-18 is a crucial link between innate and adaptive immunity. On the other hand, HPV can also directly impair immunity by disturbing the IFN signal conduction pathway, regulating antigen presentation and subsequently controlling IL-18 biological activity.2828 O'Brien PM, Saveria Campo M. Evasion of host immunity directed by papillomavirus-encoded proteins. Virus Res. 2002;88:103-17. IL-18 may also participate in protective cell-mediated immune reaction against HPV infections, and thus regulate CA development. In our study, we investigated the correlation between specific SNPs in the IL-18 gene promoter and CA in a Chinese cohort. We found that there were no significant differences in genotypic, allelic frequencies of the IL-18 −607C/A, and −137G/C SNPs between overall CA patients and healthy controls. Although a few studies implicated IL-18 in risk of HPV infection in patients with and without cervical intraepithelial lesion or HPV-related cervical squamous cell carcinoma (CSCC),2929 Yang YC, Chang TY, Chen TC, Chang SC, Lin WS, Lee YJ. Genetic variants in interleukin-18 gene and risk for cervical squamous cell carcinoma. Hum Immunol. 2013;74:882-7.,3030 Tavares MC, de Lima Junior SF, Coelho AV, Marques TR, de Araujo DH, Heraclio Sde A, et al. Tumor necrosis factor (TNF) alpha and interleukin (IL) 18 genes polymorphisms are correlated with susceptibility to HPV infection in patients with and without cervical intraepithelial lesion. Ann Hum Biol. 2016;43:261-8. no correlation between IL-18 −607C/A, 137G/C SNPs and CA had been previously reported. The reason of no dominant differences may be the underpowered sample size or population heterogeneity. It is also possible that there are other SNPs more important for the regulation of gene expression in IL-18.

HPV is mainly transmitted sexually, but it can also be transmitted via non-sexual contact. For example, the presence of CA on the genitals of young children can occasionally be caused by HPVs originated from elsewhere on the body, such as the hands.2424 Hu T, Yang P, Zhu H, Chen X, Xie X, Yang M, et al. Accumulation of invariant NKT cells with increased IFN-gamma production in persistent high-risk HPV-infected high-grade cervical intraepithelial neoplasia. Diagn Pathol. 2015;10:20. Sharing of swimsuits, underwear or bath towels, and even the non-sexual touching during routine care such as diapering, have been suggested to cause HPV infection. In our study, we explored the relationship of genotype distributions and allelic frequencies among CA patients with sexual contact, non-sexual contact and control group. We first provided direct evidence that IL-18 promoter −137G/C SNP was correlated with NSC CA in patients. Comparison of the IL-18 −137G/C polymorphism allele and genotype frequencies between non-sexual contact and control groups showed a statistically significant increase in the frequencies of the GC, CC genotypes and C allele in NSC CA group.

IL-18 is an important mediator of innate and cell-mediated immunity. Previous study showed that risk of various cancers was significantly elevated when G was mutated to C allele at IL-18 −137G/C polymorphism.3131 Giedraitis V, He B, Huang WX, Hillert J. Cloning and mutation analysis of the human IL-18 promoter: a possible role of polymorphisms in expression regulation. J Neuroimmunol. 2001;112:146-52.,3232 Mi YY, Yu QQ, Yu ML, Xu B, Zhang LF, Cheng W, et al. Review and pooled analysis of studies on -607(C/A) and -137(G/C) polymorphisms in IL-18 and cancer risk. Med Oncol. 2011;28:1107-15. NSC CA patients may have compromised innate and cell-mediated immunity and are thus more susceptible to HPV infections. The statistically significant increase in the frequencies of the GC, CC genotypes and C allele in our study may indicate the conclusion that, polymorphism −137G/C in IL-18 promoter is significantly correlated with risk of CA in NSC patients. However, due to the smaller sample size in NSC CA patients than SC CA patients and healthy controls, more subjects are need for future studies to further verify this conclusion.

  • Funding
    Not applicable.

Acknowledgements

Not applicable.

References

  • 1
    Raffaella Ghittoni RA, Chiocca Susanna, Tommasino Massimo. Role of human papillomaviruses in carcinogenesis. Ecancermedicalscience. 2015;9.
  • 2
    de Cremoux P, de la Rochefordiere A, Savignoni A, Kirova Y, Alran S, Fourchotte V, et al. Different outcome of invasive cervical cancer associated with high-risk versus intermediate-risk HPV genotype. Int J Cancer. 2009;124:778-82.
  • 3
    Nogueira Dias Genta ML, Martins TR, Mendoza Lopez RV, Sadalla JC, de Carvalho JPM, Baracat EC, et al. Multiple HPV genotype infection impact on invasive cervical cancer presentation and survival. PLoS One. 2017;12:e0182854.
  • 4
    Aydogan K, Ozakin C, Saricaoglu H, Sigirli D, Oral B. Relationship between the interleukin-6-174 gene and mannose-binding lectin codon 54 gene polymorphisms and condyloma acuminatum. J Eur Acad Dermatol Venereol. 2014;28:1306-12.
  • 5
    Moerman-Herzog A, Nakagawa M. Early defensive mechanisms against human papillomavirus infection. Clin Vaccine Immunol. 2015;22:850-7.
  • 6
    Bhaskaran M, ArunKumar G. A meta-analysis of association of Human Leukocyte Antigens A, B, C, DR and DQ with Human Papillomavirus 16 infection. Infect Genet Evol. 2019;68:194-202.
  • 7
    Chambuso R, Ramesar R, Kaambo E, Denny L, Passmore JA, Williamson AL, et al. Human Leukocyte Antigen (HLA) Class II -DRB1 and -DQB1 alleles and the association with cervical cancer in HIV/HPV co-infected women in South Africa. J Cancer. 2019;10:2145-52.
  • 8
    Bahls L, Yamakawa R, Zanao K, Alfieri D, Flauzino T, Delongui F, et al. Human Leukocyte Antigen Class I and Class II polymorphisms and serum cytokine profiles in cervical cancer. Int J Mol Sci. 2017;18.
  • 9
    Bortolotti D, Gentili V, Rotola A, Di Luca D, Rizzo R. Implication of HLA-G 3' untranslated region polymorphisms in human papillomavirus infection. Tissue Antigens. 2014;83:113-8.
  • 10
    zur Hausen H. Papillomaviruses and cancer: from basic studies to clinical application. Nat Rev Cancer. 2002;2:342-50.
  • 11
    Shrivastava G, Leon-Juarez M, Garcia-Cordero J, Meza-Sanchez DE, Cedillo-Barron L. Inflammasomes and its importance in viral infections. Immunol Res. 2016;64:1101-17.
  • 12
    Okamura H, Tsutsi H, Komatsu T, Yutsudo M, Hakura A, Tanimoto T, et al. Cloning of a new cytokine that induces IFN-gamma production by T cells. Nature. 1995;378:88-91.
  • 13
    Micallef MJ, Ohtsuki T, Kohno K, Tanabe F, Ushio S, Namba M, et al. Interferon-gamma-inducing factor enhances T helper 1 cytokine production by stimulated human T cells: synergism with interleukin-12 for interferon-gamma production. Eur J Immunol. 1996;26:1647-51.
  • 14
    Fujikura D, Muramatsu D, Toyomane K, Chiba S, Daito T, Iwai A, et al. Aureobasidium pullulans-cultured fluid induces IL-18 production, leading to Th1-polarization during influenza A virus infection. J Biochem. 2018;163:31-8.
  • 15
    Valero N, Mosquera J, Torres M, Duran A, Velastegui M, Reyes J, et al. Increased serum ferritin and interleukin-18 levels in children with dengue. Braz J Microbiol. 2019;50:649-56.
  • 16
    Kruse S, Kuehr J, Moseler M, Kopp MV, Kurz T, Deichmann KA, et al. Polymorphisms in the IL 18 gene are associated with specific sensitization to common allergens and allergic rhinitis. J Allergy Clin Immunol. 2003;111:117-22.
  • 17
    Sanchez E, Palomino-Morales RJ, Ortego-Centeno N, Jimenez-Alonso J, Gonzalez-Gay MA, Lopez-Nevot MA, et al. Identification of a new putative functional IL18 gene variant through an association study in systemic lupus erythematosus. Hum Mol Genet. 2009;18:3739-48.
  • 18
    Li CXWL, Bi JP, Zhang JM, Li YX. Levels of IL-18, IFN-γ and IL-10 in Serum of Patient's with Condyloma Acuminatum. Zhong Guo Pi Fu Xing Bing Xue. 2011;25:284-5.
  • 19
    Jaiswal PK, Singh V, Srivastava P, Mittal RD. Association of IL-12, IL-18 variants and serum IL-18 with bladder cancer susceptibility in North Indian population. Gene. 2013;519:128-34.
  • 20
    Tsai HT, Hsin CH, Hsieh YH, Tang CH, Yang SF, Lin CW, et al. Impact of interleukin-18 polymorphisms -607A/C and -137G/C on oral cancer occurrence and clinical progression. PLoS One. 2013;8:e83572.
  • 21
    Bao J, Lu Y, Deng Y, Rong C, Liu Y, Huang X, et al. Association between IL-18 polymorphisms, serum levels, and HBV-related hepatocellular carcinoma in a Chinese population: a retrospective case-control study. Cancer Cell Int. 2015;15:72.
  • 22
    Pontillo A, Bricher P, Leal VN, Lima S, Souza PR, Crovella S. Role of inflammasome genetics in susceptibility to HPV infection and cervical cancer development. J Med Virol. 2016;88:1646-51.
  • 23
    Park IU, Introcaso C, Dunne EF. Human papillomavirus and genital warts: a review of the evidence for the 2015 centers for disease control and prevention sexually transmitted diseases treatment guidelines. Clin Infect Dis. 2015;61:S849-55.
  • 24
    Hu T, Yang P, Zhu H, Chen X, Xie X, Yang M, et al. Accumulation of invariant NKT cells with increased IFN-gamma production in persistent high-risk HPV-infected high-grade cervical intraepithelial neoplasia. Diagn Pathol. 2015;10:20.
  • 25
    Gosmann C, Frazer IH, Mattarollo SR, Blumenthal A. IL-18, but not IL-12, induces production of IFN-gamma in the immunosuppressive environment of HPV16 E7 transgenic hyperplastic skin. J Invest Dermatol. 2014;134:2562-9.
  • 26
    Lind SM, Kuylenstierna C, Moll M, E DJ, Winqvist O, Lundeberg L, et al. IL-18 skews the invariant NKT-cell population via autoreactive activation in atopic eczema. Eur J Immunol. 2009;39:2293-301.
  • 27
    Cauda R, Tyring SK, Grossi CE, Tilden AB, Hatch KD, Sams WM, et al. Patients with condyloma acuminatum exhibit decreased interleukin-2 and interferon gamma production and depressed natural killer activity. J Clin Immunol. 1987;7:304-11.
  • 28
    O'Brien PM, Saveria Campo M. Evasion of host immunity directed by papillomavirus-encoded proteins. Virus Res. 2002;88:103-17.
  • 29
    Yang YC, Chang TY, Chen TC, Chang SC, Lin WS, Lee YJ. Genetic variants in interleukin-18 gene and risk for cervical squamous cell carcinoma. Hum Immunol. 2013;74:882-7.
  • 30
    Tavares MC, de Lima Junior SF, Coelho AV, Marques TR, de Araujo DH, Heraclio Sde A, et al. Tumor necrosis factor (TNF) alpha and interleukin (IL) 18 genes polymorphisms are correlated with susceptibility to HPV infection in patients with and without cervical intraepithelial lesion. Ann Hum Biol. 2016;43:261-8.
  • 31
    Giedraitis V, He B, Huang WX, Hillert J. Cloning and mutation analysis of the human IL-18 promoter: a possible role of polymorphisms in expression regulation. J Neuroimmunol. 2001;112:146-52.
  • 32
    Mi YY, Yu QQ, Yu ML, Xu B, Zhang LF, Cheng W, et al. Review and pooled analysis of studies on -607(C/A) and -137(G/C) polymorphisms in IL-18 and cancer risk. Med Oncol. 2011;28:1107-15.

Publication Dates

  • Publication in this collection
    14 Feb 2020
  • Date of issue
    Nov-Dec 2019

History

  • Received
    2 Apr 2019
  • Accepted
    16 Sept 2019
Brazilian Society of Infectious Diseases Rua Augusto Viana, SN, 6º., 40110-060 Salvador - Bahia - Brazil, Telefax: (55 71) 3283-8172, Fax: (55 71) 3247-2756 - Salvador - BA - Brazil
E-mail: bjid@bjid.org.br