Maintenance of the correct redox status of iron is functionally important for critical biological processes. Multicopper ferroxidases play an important role in oxidizing ferrous iron, released from the cells, into ferric iron, which is subsequently distributed by transferrin. Two well-characterized ferroxidases, ceruloplasmin (CP) and hephaestin (HEPH) facilitate this reaction in different tissues. Recently, a novel ferroxidase, Hephaestin like 1 (HEPHL1), also known as zyklopen, was identified. Here we report a child with compound heterozygous mutations in
HEPHL1
(NM_001098672) who presented with abnormal hair (pili torti and trichorrhexis nodosa) and cognitive dysfunction. The maternal missense mutation affected mRNA splicing, leading to skipping of exon 5 and causing an in-frame deletion of 85 amino acids (c.809_1063del; p.Leu271_ala355del). The paternal mutation (c.3176T>C; p.Met1059Thr) changed a highly conserved methionine that is part of a typical type I copper binding site in HEPHL1. We demonstrated that HEPHL1 has ferroxidase activity and that the patient’s two mutations exhibited loss of this ferroxidase activity. Consistent with these findings, the patient’s fibroblasts accumulated intracellular iron and exhibited reduced activity of the copper-dependent enzyme, lysyl oxidase. These results suggest that the patient’s biallelic variants are loss-of-function mutations. Hence, we generated a
Hephl1
knockout mouse model that was viable and had curly whiskers, consistent with the hair phenotype in our patient. These results enhance our understanding of the function of HEPHL1 and implicate altered ferroxidase activity in hair growth and hair disorders.
Background
Cutaneous exogenous ochronosis (EO) is frequently graded and staged according to the Dogliotti or Phillips classification system, both in research studies and in clinical practice. There are no data to support the use of these systems in either of these settings. These systems additionally purport that the clinical and histopathological findings of EO are concordant; however, anecdotal evidence suggests otherwise. We aimed to determine the clinical‐histopathological concordance rates in EO and to assess the suitability of the Dogliotti and Phillips classification systems for the grading and staging of EO lesions.
Methods
Five cutaneous EO cases diagnosed at our institution were studied. Clinical and histopathological data were obtained by medical record and histopathology slide review. Each case was assigned a clinical and histopathological grade according to both the Dogliotti and Phillips classifications. Clinical‐histopathological concordance rates were determined for each classification.
Results
Clinical‐histopathological concordance was seen in 80% and 60% of EO lesions when graded according to the Dogliotti and Phillips classifications, respectively.
Conclusions
Cutaneous EO lesions do not consistently show clinical‐histopathological concordance. Although the Dogliotti and Phillips classifications may have clinical utility, they are not suitable to grade EO histopathologically.
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