Trichothiodystrophy hair shafts display distinct ultrastructural features.

Angeliki-Diotima Ioannidis, Sikandar G Khan, Deborah Tamura, John J DiGiovanna, Elizabeth Rizza, Kenneth H Kraemer, Robert H Rice

Experimental dermatology 2022 Aug

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Hair shafts from three trichothiodystrophy (TTD) patients with mutations in the ERCC2 (XPD) gene were examined by transmission electron microscopy. TTD is a rare, recessive disorder with mutations in several genes in the DNA repair/transcription pathway, including ERCC2. Unlike previous studies, the hair shafts were examined after relaxation of their structure by partial disulphide bond reduction in the presence of sodium dodecyl sulphate, permitting improved visualization. Compared with hair shafts of normal phenotype, TTD cuticle cells displayed aberrant marginal bands and exocuticle layers. Clusters of cells stained differently (light versus dark) in the cortex of aberrant shafts, and the keratin macrofibrils appeared much shorter in the cytoplasm. Considerable heterogeneity in these properties was evident among samples and even along the length of single hair shafts. The results are consistent with not only a paucity of high sulphur components, such as keratin-associated proteins, but also a profound imbalance in protein content and organization. © 2022 John Wiley & Sons Ltd. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.

Citation

Angeliki-Diotima Ioannidis, Sikandar G Khan, Deborah Tamura, John J DiGiovanna, Elizabeth Rizza, Kenneth H Kraemer, Robert H Rice. Trichothiodystrophy hair shafts display distinct ultrastructural features. Experimental dermatology. 2022 Aug;31(8):1270-1275