Schizophrenia (SCZ) is a withering neuropsychiatric disorder that impacts about 1% of the worldwide population. It is characterized by certain symptoms like delusions, hallucination, disorganized speech and thought, impaired cognition, social withdrawal, and inability to feel pleasure.1,2 In addition, schizophrenics may have different mental health problems such as anxiety disorders, major depressive illness, substance use disorder.3 Symptoms usually come in stages, begin in adolescence and last a long time. The causes of SCZ include each genetic and environmental factor considerably.4 Conceivable environmental elements consist of habitation, cannabis use, certain infections, parental age, and bad nutrition throughout being pregnant.4,5 Genetic factors consist of a variety of frequent and rare genetic variants.6 Based on estimation, the heritability of SCZ can be as excessive as 80%, suggesting that genetic factors can also play an important role in the etiology of the disease.7 The keystone of treatment is antipsychotic medication in addition to counseling, job training, and social rehabilitation.4 It is undecided whether typical or atypical antipsychotics are better.8,9 A vast and illustrious number of attempts have been made to explain the link between altered brain function and SCZ.1 One of the most frequent is the dopamine hypothesis, which attributes psychosis to the mind's inaccurate interpretation of dopaminergic neurons’ misfiring.1,10,11 Of all the acquainted threat elements for SCZ, genetics is the biggest one. There is no particular mode of inheritance known. Elucidation of etiological factors remains the assignment to SCZ researchers as the most effective method for the identification of genetic risk elements for SCZ is unclear. All this has led to the adoption of several approaches, such as polymorphism, in an attempt to clarify the genetic etiology. The present study is based on exploring the role of innate immunity genes in SCZ with a focus on checking the association of TLR genes polymorphism with SCZ. Toll-like receptors (TLRs) are a class of proteins that play a key role in the innate immune system. They are single, membrane-spanning, non-catalytic receptors and are usually expressed on many immune cells to recognize structurally conserved molecules derived from microbes. They recognize microbes that have reached the physical barrier such as the skin or intestinal tract and respiratory tract mucosa and activate immune cell responses.12 TLRs lead to the activation of the innate immunity and adaptive immune system through the production of cytokines and the expression of co-stimulator molecules which, in turn, also affect neurodevelopment and may have a role in neuropsychiatric disorders.13–16 Innate immunity has a major role in the progression of neuropsychiatric disorders17 and the role of immuno-inflammatory abnormalities has been seen in neuroprogression.18 Although the immune system is mostly linked with infectious diseases, the expression and functioning of certain innate immunity genes like TLRs affect neuronal development.13 Their dysregulation is linked with innate immunity genes. A disturbed cytokine profile is generally seen in patients with schizophrenia and there is an increased level of proinflammatory cytokines (like TNFα, INFγ, IL6, etc).19-21 The cytokine expression is also regulated by TLRs.13 Any disruption in TLR genes can disturb the cytokine expression resulting in an altered profile. It is evident from various studies that there is inflammatory stress in patients with schizophrenia, which can be due to variations in the TLRs.22,23 It is important to study the role of TLRs in neurodevelopment disorders like SCZ as they are known to regulate cytokines and co-stimulatory molecules. As disruption of the immune system and disturbance in the cytokine profile of patients is evident from various studies, any variation in the genes of TLRs (like SNPs) can be checked. TLR encoding genes play an important role in host immunity, and variants in these genes can lead to structural and functional changes in these receptors, causing an altered immune response, inflammatory stress, and influencing neuropsychiatric disease progression.13,17,18 Different studies in different populations have tried to explain the role of TLRs and the association of TLR genes polymorphism with SCZ risk. An advanced and better understanding of the stimuli and mechanisms responsible for these responses could lead to improved SCZ treatment and a better understanding of the innate immunity gene markers for SCZ. Hence, it is important to study the polymorphism in TLR genes in different populations for its association with SCZ risk and establish its role as a candidate gene associated with SCZ. Genetic studies can describe disease diagnosis, prognosis, treatment, or clinical stratification and help achieve personalized treatment plans for each patient. This study involves the analysis of SNPs and such SNPs associated with SCZ disease can be used as markers for disease susceptibility. The present study provides great promise for SCZ management because a lot of improvement is required for disease assessment and management. SNP data can be used as a powerful tool for combating SCZ. SNPs are important as medical diagnostic indicators in the progression of diseases and biomedical research, where comparison can be made in a region of the genome between cohorts at the genome-wide level. SNPs are among the forms of variations in the TLR genes and these TLR polymorphisms are associated with various disorders. This makes studying TLR Polymorphism in schizophrenia important.

Four SNPs TLR1(rs4833095), TLR2(rs3804099), TLR4(rs4986790), and TLR6(rs5743810) were successfully genotyped and analyzed in a total of 500 subjects. Also, the gene interaction was investigated by String Software (https://string-db.org/). TLR1, TLR2, TLR6 genes were found interacting with each other, which is shown in Fig. 1.

Fig. 1.

Interaction of TLR 1, 2 and 6 genes with one another and other genes (https://string-db.org/cgi/network). Thickness of nodes is directly proportional to relationship with the genes.

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The current study explored the allelic and genotypic frequencies of polymorphisms in four genes, one each in the exonic region of TLR1, TLR2, TLR4, and TLR6 by a case–control set up in the Dogra population of the Jammu region. Further, the role of the variants was observed using the SNIPA online tool. It was observed that the genetic variant rs4833095 has a direct effect on the transcript (as it is a mis-sense variant), as shown in Fig. 2, whereas the variant rs3804099 has a direct regulatory effect, as shown in Fig. 3. Also, the genetic variant rs5743810 has a direct effect on the transcript, as shown in Fig. 4, so, polymorphism in any of the regions could affect the neighboring SNPs and disturb the overall physiology of the genes. This is the first study addressing the association of the polymorphism in TLR genes with schizophrenia (SCZ) in this population. All the TLR genes selected for the study code for membrane-bound TLRs are present on the cell surface.

Fig. 2.

Linkage disequilibrium plot shows the amount of correlation between a sentinel variant rs4833095(blue colored) and its surrounding variants (red colored). The TLR1 variant rs4833095 has transcript effect on the gene as it is mis-sense variant. The Y-axis signifies the correlation coefficient (r2); the X-axis signifies the chromosomal position of each SNP. The plot symbol of each variant designates its functional observations (http://snipa.helmholtz-muenchen.de).

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Fig. 3.

Linkage disequilibrium plot which shows the amount of correlation between a sentinel variant (blue colored) and its surrounding variants. The TLR2 sentinel variant (rs3804099) is upward triangle thus signifies that variant has direct regulatory effect (http://snipa.helmholtz-muenchen.de).

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Fig. 4.

Linkage disequilibrium plot which shows the amount of correlation between a sentinel variant (blue colored) and its surrounding variants. The TLR6 (rs5743810) sentinel variant is downward triangle thus signifies that variant has direct Transcript effect.

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In various studies, the association of single nucleotide polymorphism in different TLR genes with a set of diseases including neuropsychiatric disorders has been reported. A French study observed the combined effect of SNPs of TLR2 (rs4696480 and rs3804099) and TLR4 (rs1927914 and rs11536891) for their association with bipolar disorder and found that TLR2 rs3804099 TT genotype can be associated with the risk of bipolar disorder, which is also a neuropsychiatric disorder.26 A 2014 study found that the TLR2 rs3804099 TT is significantly more prevalent in early-onset bipolar disorder.27

A Korean study investigated the coding region of single nucleotide polymorphisms (SNPs) of the TLR2 gene for their association with the SCZ as well as with clinical symptoms in SCZ patients. The results provide the possibility of association of C allele of rs3804099 and rs3804100 with a poor concentration in SCZ patients.28 In this study, we have found significant differences in genotypes between cases and controls; hence, the genetic association could be established between TLR2 rs3804099 C allele and SCZ in the Dogra population of the Jammu region (OR=2.667; [1.4196-5.0093 at 95%CI] P = 0.0023).

A study by Keri et al. investigated a molecular pathway traditionally linked with neurodevelopmental hypothesis (neuregulin 1 - ErbB) and pathogen-associated pattern-recognition receptors associated with the immune hypothesis. The expressions of TLR4/TLR5 and ErbB were measured and results revealed increased TLR4/TLR5 and decreased ErbB4 expression in SCZ relative to the control subjects.29 It was concluded from the results that the stimulation of TLR4 and ErbB induces opposite pro-inflammatory cytokine responses in SCZ.

In a 2016 study, the association of TLR4 polymorphism including rs4986790 with SCZ was checked. It was also suggested that there is an altered innate immune response in patients with chronic SCZ, wherein the TLR4 proinflammatory pathway could be affected. The study suggested activation of the toll-like receptor-4 proinflammatory pathway in patients, although rs4986790 was not found to be significantly associated with SCZ.23 Researchers found evidence of alterations in the expression of initial elements of the TLR4 signaling pathway (TLR4, Myeloid differentiation primary response gene 88 [MyD88], and nuclear factor-κ B [NF-κB]) in the Pre-Frontal Cortex (PFC) of patients with SCZ.23 In our study, we could also not find a significant association between TLR4 rs4986790 and SCZ. Genotype AA was found prevalent in both cases as well as controls (97% in controls and 98% in cases).

In the TLR6 gene, the SNP rs5743810 showed no polymorphism, genotype CC was seen prevalent in our population, and it was concordant with the genotypic frequencies found in the GIH population in the HapMap project. Although some other populations have shown polymorphism at this position but in the population of the study, the presence of allele C is found significantly unassociated with the SCZ.

Also, in the case of TLR1 rs4833095 polymorphism, we could not find a significant association with the SCZ. This non-synonymous polymorphism, located in the extracellular domain, results in an asparagine-to-serine amino acid change.30 This polymorphism has been extensively studied worldwide in the case of infectious diseases and, in some studies, polymorphism at this SNP location has shown to provide resistance against various diseases like tuberculosis (TB). However, there is no report of association of this SNP with SCZ. The CT genotype of TLR1 SNP rs4833095 is associated with resistance to TB across ethnic groups.30 Two independent studies, one by Dittrich et al., from Hyderabad, and another by Sinha et al. (2014) from Agra, India, have reported that CT genotype protects against TB.31,32

Variants TLR1 rs4833095, TLR4 rs4986790, and TLR6 rs5743810 are not significantly associated with SCZ in the Dogra population of the Jammu region in this study. TLR6 rs5743810 and TLR4 rs4986790 were found to be largely monomorphic in this population (unlike in the case of other populations) with very few heterozygous genotypes. The present study showed interesting findings that some of the SNPs which are found to be associated with SCZ and other neuropsychiatric disorders in different populations are not associated with the disease in this region. Further association studies involving larger study cohorts are needed to substantiate our results.

Our results suggest that polymorphism at TLR2 rs3804099 was significantly associated with the disease risk. If the association is validated on large sample size and replicated in other populations, the SNP can be used for the establishment of a biomarker for the disorder diagnosis. However, our outcome may give important data to help clarify the etiology of schizophrenia. Eventually, the information can be utilized to accurately ascertain an individual's risk of developing SCZ and assist in preventing this disease that negatively affects many individuals and families across the world. Further exploration of such polymorphism studies could lead to an important understanding of the genetic pathophysiology of SCZ. Hopefully, further research in this area, especially SNPs which are found associated with SCZ can help in assessing the SCZ risk determination.

All procedures involving human participants performed in this study were under the ethical standards of the Institutional Ethics committee which was constituted as per the guidelines formulated by the Indian Council of Medical Research (ICMR).

Informed consent was obtained from all individual participants included in this study.

The research used no funding or financial support at any stage.

Authors are supposed not to share data. The data that support the findings of this study are available on request from the corresponding author. The data are not publicly available due to privacy or ethical restrictions.