KCTD1/KCTD15 complexes control ectodermal and neural crest cell functions, and their impairment causes aplasia cutis
Jackelyn R. Raymundo, … , Luigi Vitagliano, Alexander G. Marneros
Jackelyn R. Raymundo, … , Luigi Vitagliano, Alexander G. Marneros
Published December 19, 2023
Citation Information: J Clin Invest. 2024;134(4):e174138. https://doi.org/10.1172/JCI174138.
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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 8

ACC is a neurocristopathy caused by loss of KCTD1/KCTD15 function in NCCs.

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ACC is a neurocristopathy caused by loss of KCTD1/KCTD15 function in NCC...
(A) Newborn Wnt1Cre+Kctd1fl/flKctd15fl/fl mice show thin/eroded epidermis of the midline scalp overlying the interfrontal or sagittal sutures (green arrows), open eyelids (white arrows), and diminished nasal structures (red arrow). Top right: Newborn child with scalp ACC (arrow) (49). (B) H&Es show thinned epidermis (red arrows) with a flat Krt5+ basal layer (yellow arrow) overlying the interfrontal suture (midline, blue arrows) in P0 Wnt1Cre+Kctd1fl/flKctd15fl/fl mice, whereas the adjacent more temporal skin has a normal thickness (black arrow). This difference is not observed in P0 Wnt1Cre+Kctd1fl/WTKctd15fl/WT mice. S, sagittal sinus. Scale bars: left, 250 μm; middle, 100 μm; right, 10 μm. (C) μCT images of P0 Wnt1Cre+Kctd1fl/flKctd15fl/fl mice (DKO) and Wnt1Cre+Kctd1fl/WTKctd15fl/WT littermate mice show loss of incisors (red arrows), loss of nasal bones (yellow arrows), and delayed frontal bone ossification along the interfrontal suture (green arrows) in Wnt1Cre+Kctd1fl/flKctd15fl/fl mice. Graph shows frontal bone length in P0 control and DKO mice in millimeters (n = 3–4 mice per group; mean ± SEM; P value, 2-tailed unpaired t test). (D) Open eyes and flat nasal structures in E17.0 Wnt1Cre+Kctd1fl/flKctd15fl/fl mice (DKO). Skeletal preps of a P0 Wnt1Cre+Kctd1fl/flKctd15fl/fl mouse (DKO) and a littermate WT control show loss of nasal bones in the DKO (red arrows), shortened frontal bones (F), and delayed ossification of the interfrontal suture (yellow line shows increased distance between frontal bones at the site where the interfrontal suture crosses with the coronal suture in DKO mice). (E) Top: P0 Wnt1Cre+Kctd1fl/flKctd15fl/fl mice (DKO) show diminished ossification along the interfrontal and sagittal sutures and expanded non-ossified area at that site (outlined in yellow) compared with littermate controls (n = 3–4 mice per group; mean ± SEM; P values, 2-tailed unpaired t test). Bottom: Whole-mount immunolabeling of scalp skin shows demarcation of ACC-like region in a P0 DKO (Krt5 and ILB4 labeling). (F) Midline scalp mass (arrow) in a P0 Wnt1Cre+Kctd1fl/flKctd15fl/fl mouse shows β3-tubulin+ heterotopic neuronal tissue. Scale bars: 10 μm (immunolabeling); 250 μm (H&E).