Scholarly article on topic 'Central centrifugal cicatricial alopecia amalgamated with alopecia areata: immunologic findings'

Central centrifugal cicatricial alopecia amalgamated with alopecia areata: immunologic findings Academic research paper on "Veterinary science"

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Academic research paper on topic "Central centrifugal cicatricial alopecia amalgamated with alopecia areata: immunologic findings"

Case Report

DOI: 10.7241/ourd.20143.72

NASZA DERMATOLOGIA Online OUR DERMATOLOGY Online

Source of Support:

Georgia Dermatopathology Associates, Atlanta, Georgia, USA. Competing Interests:

CENTRAL CENTRIFUGAL CICATRICIAL ALOPECIA AMALGAMATED WITH ALOPECIA AREATA: IMMUNOLOGIC FINDINGS

Ana Maria Abreu Velez1, Bruce R. Smoller2, Michael S. Howard1

1Georgia Dermatopathology Associates, Atlanta, Georgia, USA

2United States and Canadian Academy of Pathology, Augusta, Georgia, USA

Corresponding author: Ana Maria Abreu Velez, M.D., Ph.D.

abreuvelez@yahoo.com

Our Dermatol Online. 2014; 5(3): 287-291

Date of submission: 31.03.2014 / acceptance: 20.05.2014

Abstract

Introduction: Both scarring and non-scarring alopecias exist; however, rare cases demonstrate features of both classes. Case Report: We describe an interesting alopecia case with amalgamated clinical, histologic and immunopathologic features of scarring and non-scarring alopecia. Specifically, the case displays combined features of alopecia areata (AA) and of central centrifugal cicatricial alopecia (CCCA). A 36 year old female presented with symmetric, round, patchy hair loss on her scalp.

Methods: Biopsies for hematoxylin and eosin (H&E) examination, as well as for special stains, direct immunofluorescence (DIF) and immunohistochemistry (IHC) were performed.

Results: The H&E biopsy revealed focally diminished hair follicular units, and sebaceous gland damage. Perifollicular concentric fibrosis was confirmed by Verhoeff elastin special staining. Antibodies to micelles were noted. Positive IHC staining for CD4, CD8, CD45 and multiple proteases and protease inhibitors was noted around selected follicular unit remnants.

Conclusion: We present a rare alopecia, combining histologic features of CCCA with additional, selected immunologic features of AA. Key words: Autoimmunity; scarring alopecia; alopecia areata; fibrosing alopecia; CD99

Abbreviations: Alopecia areata (AA), central centrifugal cicatricial alopecia (CCCA), direct immunofluorescence (DIF), immunohistochemistry (IHC), hematoxylin and eosin (H&E).

Cite this article:

Abreu Velez AM, Smoller BR, Howard MS. Central centrifugal cicatricial alopecia amalgamated with alopecia areata: immunologic findings. Our Dermatol Online. 2014; 5(3): 287-291.

Introduction

Scarring alopecias are often syndromic. Many scarring alopecia immunodermatologic findings are not well studied, especially in overlapping syndromes [1-3]. The most common clinical scarring alopecias include lupus erythematosus, lichen planus, pseudopelade of Brocq, follicular mucinosis, severe folliculitis, dissecting cellulitis, folliculitis decalvans, acne kelodalis nuchae, tinea kerion and favus [1-3]. Overall, immunologic findings derived from direct immunofluorescence (DIF) and/or immunohistochemistry (IHC) in scarring and non-scarring alopecias are not well documented in the literature. Alopecia areata (AA) is classically considered a non-scarring alopecia [4]. Although scarring alopecias may clinically present in a similar manner to AA, discernible differences may also be present. In AA, the hairless patches are usually smaller, more symmetric and round. Scarring alopecias may clinically "burn out"; the hairless spots will then stop increasing in diameter,

concomitant with cessation of the clinical etiology [1-3]. Overlap syndromes involving alopecias have been described, but often without significant documentation of DIF and IHC data. Previous attempts to confirm autoantibodies directed against hair follicle components in sera from AA patients have met with difficulty [4-6]. In addition, the majority of perilesional inflammatory cells around hair follicles in AA are either CD4 or CD8 positive lymphocytes.

Case Report

A 36 year old African American female presented for alterations in her scalp hair. Clinically, she demonstrated symmetric, round patches of alopecia with some burning sensations. Examination also revealed focal non-symmetric, scarring alopecic areas. Skin biopsies for hematoxylin and eosin (H&E) examination, IHC and multiple fluorochrome DIF were performed.

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Initial processing of the biopsies for H&E examination, DIF and IHC stains was performed as previously described [57]. Our case was IRB exempt because no patient identifiers were recorded. Skin DIF cryosections were prepared and incubated with multiple fluorochromes as previously reported [7-12]. The H&E sections demonstrated an unremarkable epidermis with no interface inflammation. Within the papillary and reticular dermis, hair follicular unit density was focally diminished. There were 2-3 hairs per follicular unit, and less than four sebaceous glands per follicular unit (Fig. 1). Sebaceous gland morphology varied from normal to complete destruction. The overall anagen:telogen ratio appeared normal. A mild, superficial, perivascular lymphohistiocytic infiltrate was present. No perifollicular inflammation was seen. Lymphocytes were predominantly present around blood vessels surrounding hair follicular units. Mild perifollicular concentric fibrosis was noted. Diffuse scarring was seen in focal regions of the biopsy, and rare follicular stelae scars were seen. A Verhoeff elastin stain confirmed focal dermal scarring, occupying approximately 25% of the biopsy area. A Periodic acid Schiff(PAS) stain displayed positive enhancement along basement membrane zone areas of some hair follicular units and eccrine glands (Figs. 1, 2). Finally, an Alcian blue special stain highlighted follicular remnants, with mucin deposition noted within scarring areas (Fig. 2). By IHC,

vimentin defined dermal pilosebaceous gland remnants. TIMP1 was positive on remnants of follicular units, and concentrated on sebaceous glands. CD8 positive cells were noted within the perifollicular lymphocytic infiltrate, and also around blood vessels that supplied piloerector muscles and eccrine glands (Fig. 1). Within the isthmus of hair follicles, we also noted CD8 positive staining. CD4 positive cells displayed a similar pattern to the CD8 positive cells. Strong CD45 and CD99 positivity was noted around perifollicular blood vessels. There was also strong positive staining with IgG and IgD around hair follicular units; IgD was accentuated around follicular remnants. Positive staining for IgG also was noted in focal areas of the epidermal granular cell layer, within dermal endothelial-mesenchymal cell junctions, and in endothelial cells of perifollicular blood vessels. IgM demonstrated a similar, but stronger staining pattern as IgG. Complement/C3c demonstrated a similar pattern to IgG, but with weaker staining within endothelial/mesenchymal dermal cell junctions. By DIF, Complement/C1q showed strong positivity within micelle-like structures near damaged sebaceous glands (Fig. 3). Strongly positive IgD staining was noted within and around hair follicles, and specifically around surrounding blood vessels. Complement/C3c and C1q were also strongly positive within the follicular remnants (Fig. 3 and Tabl. I).

Figure 1. a. A representative H&E section, demonstrating the decrease in hair follicular units. b. IHC CD8 positive staining inside remnants of a hair follicle (brown staining; red arrow). c. Alcian blue special stain, highlighting reactive mucin deposition in areas of dermal scarring (light blue staining; red arrows). d. IHC CD8 positive staining around a hair follicle, and around adjacent blood vessels(brown staining; red arrows). e. DIF positive staining of a hair bulb remnant, utilizing FITC conjugated anti-human Complement/C1q (yellow/white staining; red arrow). f. DIF positive staining of a hair bulb remnant, utilizing FITC conjugated anti-human IgD; note the staining against several areas within the hair follicle and hair bulb (green staining; red arrows). The thin, horizontal red structure represents a long neurovascular fiber, with its nuclei counterstained with Topro III (red staining; blue arrow).

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Figure 3. a H&E staining shows a deep dermal and subcutaneous adipose tissue area with some hair remnants, and some alterations of the extracellular matrix. b. H&E section highlighting a damaged hair follicle. c and d. Positive DIF staining in a hair follicle with FITC conjugated anti-human IgD at higher (400x) and lower (200X) magnifications, respectively (green staining).

Figure 2. a DIF positive staining of a hair follicular unit remnant, utilizing FITC conjugated anti-human IgD; note the micelles formed at the interface of the aqueous and lipid components (round structures; green staining, white arrows). b. Positive PAS special staining along a hair follicle basement membrane (red/purple staining; black arrow). c. H&E staining, demonstrating sebaceous gland destruction accompanied by inflammation around the remnants of a hair follicular unit; focal scarring is also present. d. Positive DIF staining of a hair bulb remnant and some areas of the hair follicle, utilizing FlTc conjugated anti-human Kappa light chains antibody (yellow/green staining; white arrows). e. DIF positive staining with FITC conjugated Complement/Clq antibody of a hair bulb remnant (white staining; red arrow), and several dermal blood vessels (white staining; blue arrow). f. A clinical picture of the alopecia.

DIF Antibodies DIF results IHC Antibodies (all from Dako) IHC results

IgG-FITC, Dako. Positive on hair follicle germinal bulbs (+++) with additional epidermal positivity. Vimentin Strong reactivity around hair follicular units, dermal blood vessels and some atrophic eccrine sweat glands and eccrine ducts.

IgM-FITC, Dako. Positive on hair follicle germinal bulbs, and one focus outside the sebaceous glands. LAT Negative.

IgA-FITC, Dako. Negative. Metallothionein Positive in dermal eccrine glands.

Complement/C3--FITC, Dako. Positive on hair follicle germinal bulbs, and around dermal blood vessels. TIMP-1 Positive at the bases of a few hair follicles.

Complement/C4-FITC, Dako. Positive on hair follicle germinal bulbs, and in remnants of damaged hair follicular units. CD99 Positive on dermal blood vessels and accentuated on blood vessels associated with hair follicle remnants.

Fibrinogen-FITC, Dako. Positive on hair follicle germinal bulbs. CD8 Positive around several dermal blood vessels, and eccrine ducts close to damaged follicles.

Table I. Summary of DIF and IHC staining.

DIF Antibodies DIF results IHC Antibodies (all from Dako) IHC results

Albumin-FITC, Dako. Positive staining of the BMZs of the sebaceous and eccrine glands. Positive epidermal staining within the corneal layer, and some pericytoplasmic staining in keratinocytes of the epidermal granular cell layer. Positive on hair follicle germinal bulbs. CD45 Positive around dermal blood vessels, close to hair follicles.

IgE -FITC, Goat anti-human ,Vector Laboratories. Negative. CD4 Positive around dermal blood vessels, close to hair follicles.

Complement/C1q-FITC, Kent Laboratories. Positive on hair follicle germinal bulbs, in micelles formed after destruction of sebaceous glands, and in remnants of the sebaceous glands. Complement/C3c Positive around hair follicle germinal bulbs, and around blood vessels in the dermis.

IgD-FITC, Goat anti-human, Southern Biotechnology. Positive on hair follicle germinal bulbs, with focal additional staining in the epidermis. Positive at bases of hair follicle germinal bulbs. Complement/Clq Positive around hair follicle germinal bulbs, and around several dermal blood vessels (especially those in proximity to hair follicular units). Positive also on remnants of sebaceous glands.

Kappa light Chains-FITC, Dako. Focal positivity in the hair follicles. IgD Positive in remnants of hair follicular units.

Lambda light Chains-FITC, Dako. Pericytoplasmic staining in keratinocytes of the epidermis. Also positive in hair follicle germinal bulbs. IgM Positive on hair follicle germinal bulbs, and around dermal blood vessels.

Table I. Summary of DIF and IHC staining (continuation).

Discussion

In clinical practice, often one type of alopecia seems to share selected clinical features with others. Examples include lupus erythematosus (LE) and lichen planus (LP) that may present with an overlap syndrome. Other examples that have been described of possible nosologic overlap include fibrosing alopecia in patterned distributions, and/or Graham-Little syndrome. AA does not classically present with scarring, nor has a definitive DIF pattern been clearly identified for this disease. We present a patient with clinical and immunologic features that resembles an overlap between AA and central centrifugal cicatricial alopecia (CCCA). Moreover, our combined histopathologic and immunologic results did not match any previously described alopecia. Our case demonstrates a scarring alopecia (with positive Alcian blue mucin deposition) and the additional presence of IHC CD4, CD8, CD45 and CD99 cell staining in lesional areas. We also observed the presence of multiple immunoglobulins in these areas, including a very strong response with IgD that seemed to amplify the immune response of the other immunoglobulins and complement. Thus, we document a unique combination of immunoreactants that are not routinely evaluated in routine dermatopathology and dermatoimmunology laboratories. Our results demonstrate a complex pattern of reactivity; some immunoreactivity was noted within follicular germinal bulbs and follicular unit remnants, especially with anti-IgG, IgM, IgD, complement/C1q, C3c, C4 and fibrinogen.

We also noticed many micelle-like, immunologically reactive structures that were likely formed by the destruction of sebaceous

glands and associated mixing of hydrophilic and hydrophobic tissue components. Previous authors have demonstrated similar findings to these in AA [8-10]. According to some researchers, follicular dropout may occur in nonscarring alopecias, leading to a biphasic histologic pattern. The biphasic pattern has been documented in AA, androgenetic alopecia and traction alopecia, and may be pertinent in our case [8-10]. Our DIF and IHC studies also suggest that an antibody and complement-mediated immune response was part of the disease pathogenesis in this patient, along with a T cell response. Overall, we suggest that our case is best categorized as an overlap syndrome. Specifically, our case demonstrates amalgamated pathologic features of non-scarring and scarring alopecias. Consistent with these findings, the patient improved clinically after the application of intralesional corticosteroids. In summary, we describe a case of clinical and histologic CCCA, with additional immunologic features of an AA immune response mediated by antibodies, complement, T cells and selected proteases. The significance of our findings remains unknown, and warrants further investigation.

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