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Volume 35, Issue 1, March 2024



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Mediterr J Rheumatol 2020;31(3):337-40
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MicroRNA155 Expression in Different Phenotypes and Genotypes of Behçet's Disease in a Sample of Egyptian Patients
Sally S. Hassouna1, Manal Y. Tayel1, Ashraf I. Alzawawy2, Dalal M. Elkaffash3, Ahmed M. Abdel Hadi1, Eman H. Elsayed3, Rowayda M. Amin2, Eman Tayae2, Alya Elkayal2, Asmaa Nasr2
Authors Information

1. Internal Medicine Department, Rheumatology and Immunology Unit, Faculty of Medicine, Alexandria University, Alexandria, Egypt

2. Clinical and Chemical Pathology Department, Faculty of Medicine, Alexandria University, Alexandria, Egypt

3. Opthalmology Department, Faculty of Medicine, Alexandria University, Alexandria, Egypt

Sally S. Hassouna, Dalal M. Elkaffash,  Eman Tayae 

Abstract
Aim: To display microRNA155 (miRNA155) expression in different entities of Behçet's disease (BD), and to find out if expression is affected in more than one of disease status than another, either phenotypically, according to HLA B51 expression, presence of family history, or patients’ age. Methods: Thirty BD patients (13 of which were HLAB51 positive) and 15 healthy subjects’ samples were obtained. White blood cell miRNA155 expression in both types of samples was estimated. Results: Results showed that there is a degree of relation between decrease of miRNA155 expression and different disease aspects, and also, that miRNA155 has an inverse relation with the patients’ ages. Conclusion: MiRNA155 might be used as a measure of disease of different phenotypes, and that any manifestation of the disease can happen when the expression level decreases.

Article Submitted: 24 Feb 2020; Revised Form: 3 Jun 2020; Article Accepted: 21 Jun 2020; Available Online: 30 Sep 2020

https://doi.org/10.31138/mjr.31.3.337

This work is licensed under a Creative Commons Attribution 4.0 International License. 

©Hassouna SS, Tayel MY, Alzawawy AI, Elkaffash DM, Abdel Hadi AM, Elsayed EH, et al.

Keywords: Behçet's, microRNA155, phenotypes
Full Text

BACKGROUND

Behçet's Disease (BD) is a multi-systemic disorder diagnosed by having oral ulcers more than 3 times/year, and at least two of the following: recurrent genital ulcers, cutaneous rashes, ophthalmic, rheumatologic or neurologic presentation.The disease is present mainly in the Far East, Middle East and in the silk route countries.2

Pathogenesis of the disease is still unknown but is said to be an inflammatory auto immune illness where many genetic and epigenetic changes are shown to be involved and many cytokines are assumed to regulate the pathways of the disease.2,3

MicroRNAs (miRNAs) are small, endogenous double-strand RNAs (dsRNAs) that play vital roles through focusing on mRNAs for interpretation or cleavage suppression.4

 

OBJECTIVE

To display miRNA155 expression in different BD phenotypes, to know if expression is affected more in one disease status than another, and if HLA B51 positivity, presence of family history in patients differ from each other in miRNA155 expression and relation between miRNA155 expression and patients’ ages.

 

METHODS      

Thirty BD patients and 15 healthy subjects’ blood samples were obtained. White blood cell (WBCs) miRNA155 expression in both sample types was estimated through RNA extraction, reverse transcription, amplification, and then detection by small RNA assays.


RESULTS AND DISCUSSION

MiRNA155 expression levels were decreased non-significantly not only in the whole patients group compared to the control group, but also decreased non-significantly in all disease clinical presentations except for those not having eye problems who significantly had a decreased  expression from the control group p= 0.013, and from patients with ocular involvement (p=0.041) (Figures 1 and 2).

Figure 1. Relation between miRNA155 with different disease clinical presentations.
 


Figure 2. MiRNA155 expression in ocular and non-ocular BD.
 


HLA B51 positivity in involved patients was 43.3%, and there was no significant difference between miRNA155 expression in either HLA positive or HLA B51 negative patients and the control group (p = 0.201).

Also, there was no significant difference between miRNA155 expression in patients having positive family history of BD (7 patients) and those who did not (p=0.081).

MiRNA155 expression appeared to be directly proportional to age (rs=0.374, P=0.042) (Figure 3): this may be explained by decreased disease activity with increasing age. These findings prove what was mentioned in several studies, that miRNA155 decreases with increase of BD activity, such as Hassouna et al.5


Table 1. Clinical characteristics of the patients involved.
 



The results shown are coherent with researches telling that increase in miRNA155 is related to decreased expression in some cytokine, eg, interleukin (IL)1, IL 6 and IL 17, as is shown in Zhou et al.6 These ILs play important roles in BD pathogenesis, as noted in many studies, eg, Yamakawa et al.7 and Emmi et al.,and this increased miRNA155 expression leads to increased expression of inhibitory IL 10,6 and results in a healthy immune system and may lead to balance of macrophages (M1/M2) through IL13 receptor alpha targeting (Martinez-Nunez et al.).9 A study showed that high level of MiRNA155 was found in Tregs in a FOXP3-dependent way, and Treg homeostasis is disabled in miRNA155 insufficiency. When miRNA155 is missing in Treg, miRNA155 target of cytokine signalling 1 expression suppression increase with diminished responses to IL2, which is an imperative Treg homeostasis controller this was found by Lu et al.10

Moreover, it was discovered by Ceppi et al. that miRNA155 down-regulates lipopolysaccharide induced inflammatory pathways through inhibition of monocyte-derived DCs.11


Figure_656

A few other researches revealed an inverse result to ours, that miRNA155 expression is expanded in activity of BD, and that MiR-155 focusing on Ets-1 controls Th17 response and that concealment of miR-155 diminishes pathogenic IL-17-expressing T cells, as was seen in the study of Na et al.12 Another research found that T cells miR-155 lack in mice did not lead to advancement of extreme autoimmune encephalomyelitis (EAE) and has a diminished IL-17 generation which is a critical cytokine for EAE pathogenesis.13

Moreover, Blüml et al.14 found that mice lacking in miRNA155 have impedance in Th17 differentiation and in turn are protected from joint inflammation initiated by collagen.

The opposite findings to our research results shown in some other studies may be due to ethnic differences, and different activity levels of the disease in the involved patients from one study to another. Also, several studies (either those having same results to ours, or the contrary) were built on animal research, which cannot be relied on.

Thus, there is a controversy about miRNA155 role in the pathogenesis of BD disease.

 

CONCLUSION

MiRNA155 might be used as a measure of disease state. Any manifestation of the disease can happen when the expression level decreases.             

 

ACKNOWLEDGEMENT

It is a duty to thank all the patients and healthy volunteers who have taken part in this work, and for lab technicians for being fastidious at their work.

 

ETHICS APPROVAL

Approval of Ethics Committee was obtained from the Local Ethics Committee of Alexandria University, with serial number 020850, Chairperson: Dr. Maha Ghanem, IRB No. 0007555-FWA, No. 0018699, on 29-6-2016.

 

CONFLICT OF INTEREST

The authors declare no conflict of interest.

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