key: cord-0690886-dtl8ntit authors: Moar, Agata; Bruni, Manfredo; Schena, Donatella; Rigotti, Erika; Colato, Chiara; Novelli, Antonio; Cesario, Claudia; Girolomoni, Giampiero title: Netherton syndrome plus atopic dermatitis: Two new genetic mutations in the same patient date: 2021-11-25 journal: Clin Case Rep DOI: 10.1002/ccr3.5108 sha: 1868328df3cbb12772189b4eb1beb4267ea2c5a3 doc_id: 690886 cord_uid: dtl8ntit A child who comes to our attention for the appearance of erythematous, scaly lesions localized to the upper and lower limbs for 2 months. Histological features suggested ichthyosiform disease and concomitant mutations in the SPINK5 and FLG2 genes confirmed Netherton syndrome with severe atopic manifestations. were erosions with peripheral fine scale, symmetrically located at the hands, forearms, groins, and heels. In addition, at face and neck there were well-defined erythematous, scaly patches ( Figure 1A ,B). There were also thin, fragile hairs, some broken, especially in the temporal and occipital areas. Trichoscopy and light microscopy examination showed typical trichorrhexis invaginata of hairs, eyelashes, and eyebrows ( Figure 1C,D) . No family history of atopic dermatitis was reported; the parents were consanguineous and in good health. Abnormal laboratory investigations included elevated IgE levels (306 kU/L). Histological examination of lesional skin showed epidermal hyperplasia with moderate hypergranulosis and marked hyperortho-parakeratosis arranged in parallel laminae. Furthermore, at the edge of the sample, a very thickened orthokeratotic stratum corneum was present forming a collarette scale. In the papillary dermis, a mild perivascular lympho-histiocytic infiltrate with some intravascular neutrophils was observed ( Figure 1E , F). Genetic revealed the presence of a variant c877A> C in heterozygosity in the filaggrin 2 gene (FLG2) and of a variant c882+1G> C in homozygosity in the serine protease inhibitor Kazal type 5 gene (SPINK5). At the follow-up visit, the patient presented diffuse eczematous lesions, excoriations, and post inflammatory hyperpigmentation. In addition, at the lower limbs, there were serpiginous and polycyclic erythemato-desquamative lesions. Dermatoscopy showed double-edged scale suggestive for ichthyosis linearis circumflexa (Figure 2A ). Topical tacrolimus 0.03% on the face and topical corticosteroid on eczematous patches was prescribed, plus urea-based emollients. During the follow-up, the patient reported the onset of fever (37.7°C) and a painful rash, with seroushemorrhagic vesicles and honey crusts localized mainly on the right hemiface and in the right retroauricular region ( Figure 2B ). Microbiological culture and molecular testing revealed the presence of Staphylococcus aureus and human herpes simplex virus type 1 (HSV-1) DNA F I G U R E 1 (A, B), erythematous, scaly lesions, and erosions with periferical fine scale; ©, trichoscopy showig trichorrhexis invaginata of hairs; (D), examination of the hair under light microscopy showing the presence of golf-tee hair; (E, F), marked hyperortoparacheratosis arranged in parallel laminae with an orthokeratotic stratum corneum thicker than the rest of the epidermis, forming the collarette scale, with a mild perivascular lymphohistiocytic infiltrate in the papillary dermis (hematoxylin and eosin, original magnification: (E) ×40; (F) ×100) confirming the diagnosis of bacterial infection associated with eczema herpeticum (Kaposi varicelliform eruption). In addition, a nasopharyngeal swab revealed the presence of Sars-CoV-2 RNA. The patient was treated with ceftriaxone 50-100 mg/kg intravenously, once daily for 7 days and acyclovir 20 mg/kg every 8 h intravenously for 7 days and topical rifamicin once daily for 14 days. At follow-up visit, the skin manifestations showed a marked improvement ( Figure 2C ,D). Netherton syndrome is characterized by the biallelic mutation of SPINK5 gene, which encodes for the serine protease inhibitor, LEKTI1. To date, more than 80 different mutations have been identified. [2] [3] [4] [5] [6] Loss of activity of this inhibitor results in uncontrolled epidermal serine protease activity. In our case, the child had a biallelic mutation in the SPINK5 gene and a mutation in heterozygosis in FLG2 gene, which is typically altered in atopic dermatitis. Sequence analysis revealed the presence of the homozygous variant c.882+1G> C in the SPINK5 gene, which is located in a canonical splicing site that is not present in the general population allele frequency database (gno-mAD), and it has not been described previously. Sequence analysis also revealed the heterogeneous variant c.877A> C in the FLG2 gene, which at the protein level determines the amino acid change p. Asn293His (rs1266352893). The missense variant has an allelic frequency of 0.00001062 in the general population (gnomAD) has not been described yet. Children with Netherton syndrome often present with erythroderma in the neonatal period. 7 In most patients, skin lesions evolve into serpiginous, circinate erythematous, and desquamating patches with a characteristic double-edged scale defined as Ichthyosis linearis circumflexa. The typical atopic diathesis of Netherton syndrome is expressed by eczematous plaques. In addition, hair shaft fragility is determined by a weak cross-linkage between keratin structures due to a reduced number of disulfide bonds causing an intussusceptions of the distal shaft into the dilated proximal cap, also known as trichorrhexis invaginata (bamboo hair). [8] [9] [10] Hair shaft abnormalities generally develop during infancy and early childhood and improve with age. A trichoscopic evaluation is of great help to direct the diagnosis at an early age. 11, 12 Alterations of skin barrier function as well possible defects in skin innate immune system lead to an increased susceptibility to bacterial or viral infections, including HSV infection. Our patients also resulted positive to Sars-Cov-2, but he did not develop respiratory symptoms. In our case, clinical presentation of atopic manifestations was severe possibly because the co-presence of two mutations acting synergistically. To date, the treatment of Netherton syndrome is to relieve symptoms and improve patients' quality of life. Topical treatments include emollients, keratolytics, tretinoin, brimonidine, calcipotriene, corticosteroids alone or in combination with each other. 13, 14 In addition, topical calcineurin inhibitors have been shown to be effective in the treatment of skin lesions. 15 The skin barrier dysfunction may lead to a greater absorption of topical drugs (such as topical calcineurin inhibitors), for which it is important to monitor the serum dosage of some drugs. Intravenous immunoglobulins (IVIg) have been used with some efficacy in a limited number of cases. 16 The effect of systemic retinoids remains controversial as it resulted in excellent clinical improvement in some patients, while in others it caused an exacerbation of skin manifestations. 17 Narrow-band UVB phototherapy, UVA1, PUVA, and balneophototherapy have been reported as effective therapeutic alternatives. [18] [19] [20] Recently, cases of Netherton syndrome have been successfully treated with biological drugs such as anti-TNF alpha, dupilumab, omalizumab, secukinumab, and ustekinumab have been described. [21] [22] [23] [24] [25] Netherton's disease: trichorrhexis invaginata (bamboo hair), congenital ichthyosiform erythroderma and the atopic diathesis. A histopathologic study Mutations in SPINK5, encoding a serine protease inhibitor, cause Netherton syndrome The spectrum of pathogenic mutations in SPINK5 in 19 families with Netherton syndrome: implications for mutation detection and first case of prenatal diagnosis Netherton syndrome: a genotype-phenotype review Two siblings affected by Netherton/comèl syndrome. Diagnostic pathology and description of a new SPINK5 variant The challenging management of a series of 43 infants with Netherton syndrome: unexpected complications and novel mutations Neonatal and infantile erythrodermas: a retrospective study of 51 patients Elevated stratum corneum hydrolytic activity in Netherton syndrome suggests an inhibitory regulation of desquamation by SPINK5-derived peptides LEKTI is localized in lamellar granules, separated from KLK5 and KLK7, and is secreted in the extracellular spaces of the superficial stratum granulosum Bamboo hair in Netherton's syndrome Novel SPINK5 variants in a patient with Netherton syndrome and intellectual disability. The diagnostic value of trichoscopy Videodermoscopy of eyelashes in Netherton syndrome Updated strategies for the management, pathogenesis and molecular genetics of different forms of ichthyosis syndromes with prominent hair abnormalities Image gallery: brimonidine gel for facial erythema in Netherton syndrome Netherton syndrome: successful use of topical tacrolimus and pimecrolimus in four siblings Comèl-Netherton syndrome defined as primary immunodeficiency Netherton's syndrome: successful treatment with isotretinoin Netherton's syndrome which responded to photochemotherapy UVA1 phototherapy of Netherton syndrome Ichthyosis linearis circumflexa in a child. Response to narrowband UVB therapy Infliximab therapy for Netherton syndrome: a case report Treatment of Netherton syndrome with dupilumab A case of netherton syndrome: successful treatment with omalizumab and pulse prednisolone and its effects on cytokines and immunoglobulin levels Secukinumab therapy for Netherton syndrome Netherton syndrome plus atopic dermatitis: Two new genetic mutations in the same patient None. The authors declare no conflict of interests. This case was conducted in accordance with the Declaration of Helsinki. All information of the patient's health was collected and evaluated, ensuring his privacy. Written informed consent was collected for the publication of patient information and images. The data that support the findings of this study are available from the corresponding author upon reasonable request. Agata Moar https://orcid.org/0000-0002-2198-4120