Ablation of MEKK4 Kinase Activity Causes Neurulation and Skeletal Patterning Defects in the Mouse Embryo

Author:

Abell Amy N.12,Rivera-Perez Jaime A.32,Cuevas Bruce D.12,Uhlik Mark T.12,Sather Susan4,Johnson Nancy L.12,Minton Suzanne K.12,Lauder Jean M.52,Winter-Vann Ann M.12,Nakamura Kazuhiro12,Magnuson Terry32,Vaillancourt Richard R.6,Heasley Lynn E.4,Johnson Gary L.12

Affiliation:

1. Departments of Pharmacology

2. Lineberger Comprehensive Cancer Center, University of North Carolina School of Medicine, Chapel Hill, North Carolina 27599-7365

3. Genetics

4. Department of Pharmacology, University of Colorado Health Sciences Center, 4200 East Ninth Ave., Denver, Colorado 80262

5. Cell and Developmental Biology

6. Department of Pharmacology and Toxicology, University of Arizona College of Pharmacy, Tucson, Arizona 85721

Abstract

ABSTRACT Skeletal disorders and neural tube closure defects represent clinically significant human malformations. The signaling networks regulating normal skeletal patterning and neurulation are largely unknown. Targeted mutation of the active site lysine of MEK kinase 4 (MEKK4) produces a kinase-inactive MEKK4 protein (MEKK4 K1361R ). Embryos homozygous for this mutation die at birth as a result of skeletal malformations and neural tube defects. Hindbrains of exencephalic MEKK4 K1361R embryos show a striking increase in neuroepithelial cell apoptosis and a dramatic loss of phosphorylation of MKK3 and -6, mitogen-activated protein kinase kinases (MKKs) regulated by MEKK4 in the p38 pathway. Phosphorylation of MAPK-activated protein kinase 2, a p38 substrate, is also inhibited, demonstrating a loss of p38 activity in MEKK4 K1361R embryos. In contrast, the MEK1/2-extracellular signal-regulated kinase 1 (ERK1)/ERK2 and MKK4-Jun N-terminal protein kinase pathways were unaffected. The p38 pathway has been shown to regulate the phosphorylation and expression of the small heat shock protein HSP27. Compared to the wild type, MEKK4 K1361R fibroblasts showed significantly reduced phosphorylation of p38 and HSP27, with a corresponding heat shock-induced instability of the actin cytoskeleton. Together, these data demonstrate MEKK4 regulation of p38 and that substrates downstream of p38 control cellular homeostasis. The findings are the first demonstration that MEKK4-regulated p38 activity is critical for neurulation.

Publisher

American Society for Microbiology

Subject

Cell Biology,Molecular Biology

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