KCTD1/KCTD15 complexes control ectodermal and neural crest cell functions, and their impairment causes aplasia cutis
Jackelyn R. Raymundo, Hui Zhang, Giovanni Smaldone, Wenjuan Zhu, Kathleen E. Daly, Benjamin J. Glennon, Giovanni Pecoraro, Marco Salvatore, William A. Devine, Cecilia W. Lo, Luigi Vitagliano, Alexander G. Marneros
Jackelyn R. Raymundo, Hui Zhang, Giovanni Smaldone, Wenjuan Zhu, Kathleen E. Daly, Benjamin J. Glennon, Giovanni Pecoraro, Marco Salvatore, William A. Devine, Cecilia W. Lo, Luigi Vitagliano, Alexander G. Marneros
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Research Article Dermatology Development

KCTD1/KCTD15 complexes control ectodermal and neural crest cell functions, and their impairment causes aplasia cutis

Abstract

Aplasia cutis congenita (ACC) is a congenital epidermal defect of the midline scalp and has been proposed to be due to a primary keratinocyte abnormality. Why it forms mainly at this anatomic site has remained a long-standing enigma. KCTD1 mutations cause ACC, ectodermal abnormalities, and kidney fibrosis, whereas KCTD15 mutations cause ACC and cardiac outflow tract abnormalities. Here, we found that KCTD1 and KCTD15 can form multimeric complexes and can compensate for each other’s loss and that disease mutations are dominant negative, resulting in lack of KCTD1/KCTD15 function. We demonstrated that KCTD15 is critical for cardiac outflow tract development, whereas KCTD1 regulates distal nephron function. Combined inactivation of KCTD1/KCTD15 in keratinocytes resulted in abnormal skin appendages but not in ACC. Instead, KCTD1/KCTD15 inactivation in neural crest cells resulted in ACC linked to midline skull defects, demonstrating that ACC is not caused by a primary defect in keratinocytes but is a secondary consequence of impaired cranial neural crest cells, giving rise to midline cranial suture cells that express keratinocyte-promoting growth factors. Our findings explain the clinical observations in patients with KCTD1 versus KCTD15 mutations, establish KCTD1/KCTD15 complexes as critical regulators of ectodermal and neural crest cell functions, and define ACC as a neurocristopathy.

Authors

Jackelyn R. Raymundo, Hui Zhang, Giovanni Smaldone, Wenjuan Zhu, Kathleen E. Daly, Benjamin J. Glennon, Giovanni Pecoraro, Marco Salvatore, William A. Devine, Cecilia W. Lo, Luigi Vitagliano, Alexander G. Marneros

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Figure 2

Dominant-negative effects of KCTD1 mutations.

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Dominant-negative effects of KCTD1 mutations. (A) SEN syndrome mutation ...
(A) SEN syndrome mutation sites G62D (green) and H74P (red) in the BTB domain of KCTD1. (B) Thioflavin T (ThT) fluorescence assay shows amyloid-like aggregate formation in 5:1 mixtures of KCTD1WT with KCTD1H74P or KCTD1G62D but not for KCTD1WT without the mutant protein. Emission spectra obtained by addition of ThT solution to KCTD1WT (blue circles), KCTD1WT + KCTD1H74P (red circles), and KCTD1WT + KCTD1G62D (green circles) proteins. Representative of 3 independent experiments. (C) Binding of KCTD1WT (blue circles), KCTD1WT + KCTD1H74P (red squares), and KCTD1WT + KCTD1G62D (green triangles) to coated AP-2α determined by ELISA. KCTD1WT was premixed with KCTD1H74P or KCTD1G62D mutants at a ratio of 5:1. Error bars represent SD (n = 2 per group). (D) With increasing ratio of KCTD1H74P (eYFP, yellow) or KCTD1G62D (eYFP, yellow) to KCTD1WT (eGFP, green), KCTD1 protein aggregates increase in HaCaT cells. Scale bars: 10 μm. (E) KCTD1WT/KCTD1H74P protein aggregates and KCTD1WT/KCTD1G62D protein aggregates in HaCaT cells are detected by Amytracker-630. Arrow indicates nuclear KCTD1. Scale bars: 10 μm. (F) KCTD1WT/KCTD1H74P protein aggregates and KCTD1WT/KCTD1G62D aggregates (1:1 ratio) reduce cell viability in HaCaT cells. Mean ± SEM (n = 3 per group); P values (1-way ANOVA test with Dunnett’s multiple-comparison test). (G) KCTD15D104H (eYFP, yellow) forms with KCTD15WT (tRFP, red) amyloid-like aggregates (1:1 ratio) in HaCaT cells. Scale bars: 10 μm. (H) With increasing ratio of KCTD15D104H (eYFP, yellow) to KCTD15WT (tRFP, red) protein aggregates increase in HaCaT cells. Top left image is from G. Scale bars: 10 μm.