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1/2012
vol. 63
 
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Pemphigoid gestationis in a female with progressive facial hemiatrophy: microchimerism as a speculative shared background is disputable

Paweł Pietkiewicz
,
Justyna Gornowicz-Porowska
,
Monika Bowszyc-Dmochowska
,
Marian Dmochowski

Pol J Pathol 2012; 1: 71-74
Online publish date: 2012/04/24
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Introduction



Pemphigoid gestationis (PG) is a subepidermal autoimmune bullous dermatosis associated eminently with pregnancy. Blister formation in this rare disease is caused by IgG autoantibodies binding hemidesmosomal protein BP180. The extracellular fragment of the longest, non-collagenous domain of this protein, BP180NC16A, consists of 4 epitopes (MCW0, MCW1, MCW2, MCW3). The inner heptapeptide of amino-terminal MCW-1 epitope seems to be the most immunogenic in PG. The PG autoantibodies, particularly of IgG1 subclass, have complement-activating capacities, thus triggering neutrophil and eosinophil infiltration [1].

Progressive facial hemiatrophy (Parry-Romberg syndrome – PRS), a rare neurocutaneous syndrome of unclear etiology, seems to be a form of “en coup de sabre” morphea. The onset of the disease frequently occurs in the first or second decade of life and it progresses for years until the condition stabilizes at the “burn-out” stage. There might be a higher incidence in females [2].

Microchimerism refers to the presence of small numbers of foreign cells within the organism. Microchimerism can persist for decades. Such foreign cells derive from many sources, yet the commonest source of naturally acquired microchimerism seems to be two-way transplacental traffic occurring routinely between a mother and a fetus during pregnancy [3]. While microchimerism may take part in immune tolerance in pregnancy, it may also contribute to immune disease. Anti-maternal graft-versus-host reaction by fetal cells seems to be involved in the pathogenesis of the PG [4], while anti-fetal graft-versus-host reaction may be involved in the pathogenesis of scleroderma [5, 6]. This is the first report of a female with coexistence of PG and PRS, two rare autoimmune diseases, with microchimerism as a possible shared background.

Case report



A 35-year-old pluriparous pregnant female presented with clinical features suggesting PG (Fig. 1 A) and PRS (Fig. 1 B). Histopathological examination of the lesional skin (hematoxylin and eosin staining) revealed eosinophil-rich subepidermal infiltration with an inverted teardrop sign, caused by edematous widening of the upper part of dermal papilla with its narrowed lower part, that is regarded as suggestive of PG (Fig. 1 C). Direct immunofluorescence of

perilesional skin showed linear IgG1(+) (Fig. 1 D) and C3(+++) deposits along dermal-epidermal junction. There were no IgA, IgM, IgG and IgG4 deposits. Indirect immunofluorescence (IIF) on monkey esophagus revealed neither IgG nor IgG4 serum autoantibodies suggestive of pemphigus and pemphigoid dermatoses. Anti-BP180-NC16-4X IgG ELISA (Euroimmun, Germany), one of two available enzyme-linked immunosorbent assays with confirmed sensitivity and specificity in diagnosing diseases of bullous pemphigoid circle, revealed elevated IgG anti-BP180 levels in both serum and blister fluid: 189.32 RU/ml and 144.74 RU/ml (cut off score 20 RU/ml), respectively, thus supporting the diagnosis of PG. Anti-BP230 IgG ELISA, both in serum and blister fluid, was negative. The IIF on HEp-2 cells/monkey esophagus mosaic revealed IgG anti-nuclear antibodies (ANA) at the titre of 1/640 in homogenous and speckled pattern. ANA Profile 3 (IgG) blot-type test revealed IgG antibody against proliferating cell nuclear antigen (PCNA) (“+” level) (Euroimmun, Germany).

Discussion



Microchimerism seems to be a constitutive component of physiology. The foreign cells may be pregnancy-associated or derived from blood transfusion or tissue transplantation. The cell transfer may be increased in case of a fetal defect, iatrogenic obstetric intervention, elective or spontaneous abortion and termination of pregnancy.

Gestation seems to be the main cause of naturally acquired microchimerism as it provides bidirectional feto-maternal cell transfer resulting in fetal graft in the mother and maternal graft in the fetus. Both benevolent and malevolent consequences of maternal microchimerism (MMc) and fetal microchimerism (FMc) are subject to investigation. The mechanism of FMc allowance in the mother and MMc allowance in the child may differ due to a different stage of immune system development. Dysfunctional immunity was speculated to cause loss of fetal foreign tissue tolerance, thus evoking autoimmune diseases. The fetal cell transfer into maternal circulation, that takes place routinely during pregnancy, increases with the gestational age and recedes postpartum, interestingly concurring with the PG occurrence during the second/third trimester [3, 7-9].

Autoreactive anti-BP180 IgG is directed against BP180, and is reported to be expressed in placental cells and amniotic membrane as well as in the hemidesmosome adhesion complex of the skin, what can be explained by common ectodermal origin of these tissues. While in most pregnancies, the maternal immune system adapts to pregnancy, in PG mothers, antigen-autoantibody reaction causes keratinocyte adhesion loss and subepidermal blister formation [10]. Pemphigoid gestationis is characterized by the complement-binding IgG1 and IgG3 subclasses. It seems that pathological autoimmunization is evoked not only by cross-reacting anti-BP180 IgG antibodies but also temporal malfunction of the immune system that regulates anti-BP180 IgG production. Some literature data suggest the role of abnormal expression of HLA class II molecules of the paternal haplotype in triggering immunization in females with PG, assuming the possible contribution of microchimerism phenomenon [7, 11, 12], yet other put the hypothesis in doubt [13]. Association of PG with pregnancy raises a question of implications of coexistence of 2 or more cell populations, as the prospective mother may harbor both her female ancestor cells and progeny cells.

The so-called “bad microchimerism” theory, assuming the malevolent role of FMc, outlines the role of such allograft in pathogenesis of autoimmune diseases [14]. Fetal hemopoietic and nonhemopoietic stem cells transferred to maternal circulation may participate in generating graft-versus-host-like response in the woman and subsequent maternal response to foreign fetal cells leading to pathological autoimmunization [15].

Parry-Romberg syndrome, a form of morphea/localized scleroderma manifesting in childhood, has some similar symptoms to graft-versus-host disease (GVHD). Foreign CD68+ or S100+ cells of the dendritic cell phenotype along with foreign T and B cells were detected in skin lesions in patients with localized scleroderma [16]. In that case, probable sources of acquired foreign cells comprise mother’s cells, genetic material from vanished twin, twin or older sibling. Such persistent foreign cells in fetal circulation might be dormant until an unknown agent, such as infection [17] (in our case, chickenpox in childhood), drug, abnormal protein, serving as an antigen, changes the immunity balance and allows the disease to manifest. There are two possibilities concerning the pathogenic role of maternal cells. The MMc may be effector cells against host or a victim to the autoimmune reaction [3].

It is worth noticing that there is the other side of the coin. The “good microchimerism” theory puts forward the conjectural beneficial role of fetal microchimerism in maternal tissue reparation and immunity. Infiltrating the diseased organ, FMc and MMc cells may assist in tissue reparation. The MMc may participate in fetal and neonatal immune system development. On the other hand, microchimeric T-cells of fetal origin may express T cell receptors that do not occur on mother’s T cells, thus enabling the host to expand the range of recognized antigens.

There are many variables including source of foreign cells, the time since acquisition, genetic factors or numerous still unknown agents that may influence the impact of microchimerism on the patient. The role of fetal-maternal exchange of genetic material in autoimmunity and health should be further explored.

We present the first report of a female with coexisting PG and PRS, two diseases speculatively associated with microchimerism. Numerous studies point out to both possible benevolence and malevolence of microchimerism. This phenomenon, although crucial to reproduction, by altering immunological mechanisms might take part in pathogenesis of autoimmune diseases.

References



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17. Rajendran R, Sivapathasundharam B. Disturbances of development and growth. In: Shafer's textbook of oral pathology. Sivapathasundharam B, Rajendran R (eds.). 6th ed. Elsevier, New Delhi 2009; 14-15.



Address for correspondence

Associate Prof. Marian Dmochowski MD, PhD

Cutaneous Histopathology and Immunopathology Section

Department of Dermatology

Poznań University of Medical Sciences

ul. Przybyszewskiego 49

60-355 Poznań, Poland

phone: +48 61 869 13 19

e-mail: dmoch@sylaba.poznan.pl
Copyright: © 2012 Polish Association of Pathologists and the Polish Branch of the International Academy of Pathology This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0) License (http://creativecommons.org/licenses/by-nc-sa/4.0/), allowing third parties to copy and redistribute the material in any medium or format and to remix, transform, and build upon the material, provided the original work is properly cited and states its license.
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