Etiopathogenesis of Erythema Multiforme - A Concise Review- Juniper Publishers
Juniper Publishers- Open Access Journal of Dentistry & Oral Health
Erythema multiforme is a reactive muco-cutaneous disorder in a disease spectrum that comprises a self-limited, mild, exanthematic, cutaneous variant with minimal oral involvement (minor form) to a progressive, fulminating, severe variant with extensive muco-cutaneous epithelial necrosis (major form). These prototypes are well defined, but their distinction may be difficult in practice because of their overlapping features. Hence this literature review describes the associated potential etiologic agents and pathogenic mechanisms of erythema multiforme that may aid in early and accurate diagnosis of this lesion to prevent the complications and morbidity associated with this entity.
Keywords: Autoimmune; Erythema multiforme; Herpes; Hypersensitivity; Stevens-Johnson syndrome
Introduction
Erythema multiforme (EM) is a clinical conundrum, the name of which reflects the broad morphological spectrum of the lesions [1]. It is an acute, self-limited, episodic and muco-cutaneous inflammatory disorder of the skin and mucous membranes that could be related to immunologic [2] hypersensitivity reaction to certain infections, medications, and other various triggers [3]. It is classified into the following variants- [4]
i. Erythema multiforme minor (EM minor) - Typical targets or raised, edematous papules distributed acrally.
ii. Erythema multiforme major (EM major) - Typical targets or raised, edematous papules distributed acrally with involvement of one or more mucous membranes; epidermal detachment involves less than 10% of total body surface area (TBSA).
iii. Stevens-Johnson syndrome (SJS) - detachment below 10% of the TBSA plus widespread erythematous or purpuric macules or flat atypical targets and
iv. Toxic epidermal necrolysis (TEN) - detachment above 30% ofthe body surface area plus widespread purpuric macules or flat atypical targets.
Other miscellaneous variants of EM are recurrent EM where EM occurs over multiple years [3] and a rare variant of EM referred to as persistent EM, which is characterized by a continuous, uninterrupted state of both typical and atypical lesions with widespread involvement of skin and mucous membrane [4].
These prototypes are well defined, but their distinction may be difficult in practice because of their overlapping features. Hence the present article reviews the associated potential etiologic agents and pathogenic mechanisms of EM that may aid in early and accurate diagnosis of EM to prevent the complications and morbidity associated with this entity
Etiology and risk factors
The etiology of EM is still unclear to this day [5]. Although hundreds of factors have been reported to cause EM, only a limited number are reasonably well documented as possible precipitating agents [6]. It is considered as side effect reaction against certain microorganisms, radiotherapy, systemic diseases, malignancy, and food or drug allergy [5]. The potential etiologic agents associated with EM are mentioned in (Table 1) [6] and the commonest stimuli are briefly described as follows-
Infections
Infections are the most common cause of EM with herpes simplex virus being the most frequent precipitator [7]. Among the other infections, Mycoplasma infection appears to be a common cause [3].
Herpes simplex
Herpes simplex virus (HSV) (types 1 & 2) is a vastly underappreciated cause of EM, with 15% to 63% of cases associated with this virus [6-9]. HSV is the most common cause in young adults; in fact, many instances of idiopathic EM minor may be precipitated by subclinical HSV infection [3]. In cases caused by HSV, EM tends to occur 1 to 3 weeks after the onset of the HSV symptoms (post-herpetic EM) [10]. A study was conducted in Denver to assess the potential role of HSV infection in the pathogenesis of EM minor in children where EM skin lesions from 20 children, aged 1 to 16 years, were examined for the presence of HSV by using the polymerase chain reaction and concluded that HSV is a significant precipitating factor for EM minor in children, as it is in adults, and that clinicians should maintain a high index of suspicion of HSV even in the absence of a known history of herpes infection [11].
A herpetic etiology also accounts for 55% of cases of EM major [12] and is also the most common cause of recurrent EM whereas persistent EM is associated with viral infections, as well as inflammatory bowel disease and malignancies [4].
Mycoplasma
Among other infections, Mycoplasma species appear to be a common cause [3] in which Mycoplasma pneumoniae is an important and highly relevant cause of bullous erythema multiforme, isolated mucositis, and SJS in children [13].
Drugs
Adverse skin reactions to drugs are frequent, with rates of reaction to many commonly used drugs exceeding 1% [14]. Erythema multiforme, especially EM major and SJS can occur after taking certain medications, although medications are a less likely cause than an infection [15]. Regarding medications, sulfa drugs are the most common triggers (30%). A slow acetylator genotype is a risk factor for sulfonamide-induced SJS [3]. The second most commonly involved agents are the anticonvulsants, including barbiturates, carbamazepine, hydantoin, phenytoin, and valproic acid. Prophylactic anticonvulsants after surgery for a brain tumor combined with cranial irradiation may result in life-threatening SJS [3].
However, a retrospective study done in the patients hospitalized in Taiwan between 1988 and 2004 revealed that medications were the most common cause of any condition of EM: for SJS, carbamazepine was most common; for EM or TEN, allopurinol was most common.16 Some of the medications that can trigger a reaction are mentioned in (Table 2) [16,17].
Pathogenesis
Although the precise pathogenesis is unknown, there is a tendency to consider EM both minor and major as part of one spectrum that is most often triggered by viral infections, and SJS and TEN as a separate one most often elicited by drugs with EM major and SJS representing a bridge in the continuum of EM. Significant differences exist among EM minor, EM major, SJS, and TEN with regards to severity and clinical expression; however, all variants share two common features: typical or less typical cutaneous target lesions and satellite-cell or more widespread necrosis of the epithelium. These features are considered to be sequelae of a cytotoxic immunologic attack on keratinocytes expressing non-selfantigens. These antigens are primarily microbial (viruses) or drugs and in rare instances histocompatibility antigens [18].
From immune-pathological aspect, minor EM is caused by type III hypersensitivity reaction, which involves immune complex reaction of antigen and antibody. Biopsy on blood vessel wall of EM patient found the increasing level ofimmunoglobulin M, complement and fibrin deposits. The pathogenesis is divided into three steps: the formation of antigen-antibody complex in circulation, the deposit of immune complex in numerous tissues, and the appearance of inflammatory reaction in many parts of the body On the first stage, when antigen enters the body, specific antibody will be produced. And then in the circulation system these two form antigen-antibody complex. Ifthe antigen could not be eliminated or phagocyte cells fail to do its function, antigen will be in the circulation for a longer time.This situation can also be caused by malfunctioned macrophage, leading to deposition of immune complex in many parts and causing vasculitis. Immune complex which leave circulation and deposit inside or outside blood vessel wall, will cause the increase of blood vessel permeability. This condition is marked by immune complex which bound with inflammatory cells through Fc and C3b receptors and trigger the release of vasoactive and cytokine mediators. On condition when immune complex deposit within the tissues, third inflammatory reaction occurs. In this stage appear symptoms such as fever, urticaria, arthralgia, and lymphoid gland expansion. This can happen in the beginning of erythema multiforme to quickly appear its clinical manifestation, but the prodromal symptoms which precede it may not as severe as in diseases of viral infections [5].
The major type of EM is mostly caused by autoimmune process and from untreated minor type of EM. In histopathology examination, autoantibody on desmoplakins 1 and 2 are found, which show the involvement of humoral immune system. This can be used as a way to help the diagnosis of erythema multiforme, to be differentiated by its differential diagnosis [5].
The phenomenon of autoimmune is often connected with genetics. There are genetic components which are identical to Human Leukocyte Antigen (HLA) specificity, as in systemic lupus erythematosus with Class II HLA gene especially on HLA-DQ locus. In relation with microbes, some bacteria, microplasm, and virus are able to trigger the autoimmune reaction through several mechanisms, such as: epitop recognition which cross linked with host antigen, microbial antigen and auto antigen combined forming an immunogenic unit to activate the tolerance of T cell, some virus and bacteria as a mitogen to T cell or B cell non specific polyclonal which can induce the formation of antibody, and microbial infection with tissue necrosis and inflammation which can activate antigen presenting cell (APC) stimulation in tissues [5].
Infections
The association between EM and HSV infection has long been appreciated, although the exact role which HSV may play in the pathogenesis of this herpes-associated EM (HAEM) is unknown. The presence of HSV would support the hypothesis that an immune- mediated response directed against HSV-specific antigens in the skin is central to lesion development in HAEM [19].
New data are presented which suggest that autoreactive T-cells triggered by virus infection play an important role in HAEM pathogenesis. Disease development begins with viral DNA fragmentation and the transport of the DNA fragments to distant skin sites by peripheral blood mononuclear cells (PBMCs). HSV genes within DNA fragments deposited on the skin [notably DNA polymerase (Pol)] are expressed, leading to recruitment of HSV-specific CD4+ Th1 cells that respond to viral antigens with production of interferon-gamma (IFN-γ). This step initiates an inflammatory cascade that includes expression of IFN- γ induced genes, increased sequestration of circulating leukocytes, monocytes and natural killer (NK) cells, and the recruitment of autoreactive T-cells generated by molecular mimicry or the release of cellular antigens from lysed cells. The PBMCs that pick up the HSV DNA [viz. macrophages or CD34+ Langerhans cells (LC) precursors], their ability to process it, the viral proteins expressed in the skin and the presence of epitopes shared with cellular proteins may determine whether a specific HSV episode is followed by HAEM development [1] (Figure 1).
Previous reports have shown an increased frequency of certain HLA antigens in association with EM, including HLA- B15(B62), HLA-B35, HLA-A33, HLA-DR53 and, more recently, HLA-DQB1*0301. A strong association with HLA-DQ3 has been documented in patients with recurrent erythema multiforme. The HLA antigens A1, B8, and DR3 are associated with autoimmune disease, reflecting an increased host response to tissue self antigens. Their absence in patients with recurrent erythema multiforme may be an indicator of a poor host response to an antigen, which in the case of recurrent erythema multiforme is the HSV [20].
Drug hypersensitivity
Drug-associated EM (DIEM) is a mechanistically distinct EM subset that involves expression of tumor necrosis factor alpha (TNF- α) in lesional skin 10 and not interferon-y as in HAEM lesions, suggesting a varying mechanism [21]. The disease process also often involves an abnormal metabolism of a responsible drug. As noted above, the keratinocyte is the ultimate target of this disease process, with keratinocyte necrosis being the earliest pathologic finding. Patients frequently display an altered metabolism of the responsible drug, and are considered to be slow acetylators, both genotypically and phenotypically. This means that an increased proportion of drug metabolism is directed toward the alternative pathway of oxidation by the cytochrome P-450 system, resulting in increased production of reactive and potentially toxic metabolites. Affected individuals have a defect in the ability to detoxify these reactive metabolites, which may then behave as haptens by binding covalently to proteins on the surface of epithelial cells. This may then induce the immune response, leading to the severe skin reaction [3]. Much of the tissue damage in drug-induced lesions appears to be due to apoptosis and, because of the paucity of the inflammatory reaction. However, particularly in TEN and SJS, there is some evidence for apoptosis-associated molecules Fas and Fas ligand (Fas-FasL) interaction. FasL mediates apoptotic cell death by binding to Fas on cells and inducing the formation of caspases. Fas is present on keratinocytes and FasL is found on activated T cells and NK cells and thus binding of keratinocytes to T cells or NK cells can induce apoptosis [22,23].
Conclusion
Through this literature review, it can be concluded that EM is classified into 2 types, the minor type that is associated with recurrent HSV and it is a hypersensitivity reaction by vasculitis on antigen antibody complex reaction, and the more serious syndrome, EM major, or SJS that is usually caused by autoimmune process to drugs and mycoplasmal infections.
Making the distinction between these conditions is valuable for providing adequate therapy and predicting the prognosis of this entity Hence, progress in the understanding of EM will require careful attention to etiologic subsets and immunopathogenesis within the spectrum of EM.
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