The mammalian genome contains two mitogen-activated protein kinase (MAPK) kinase (MEK)-encoding genes, Mek1 and Mek2. MEKs phosphorylate and activate the two extracellular signal-regulated kinase (ERK) isoforms ERK1 and ERK2. Mek1(-/-) embryos die due to placental defects, whereas Mek2(-/-) mice survive with a normal life span and fertility, suggesting that MEK1 has functions not shared by MEK2. However, most Mek1(+/-)Mek2(+/-) embryos also die from placental defects, indicating that both Mek genes contribute to placental development. To assess the functional specificity of the Mek1 and Mek2 genes, we produced a Mek1 knock-in allele in which the Mek2 coding sequences were placed under the control of Mek1 regulatory sequences (Mek1(2) allele). Mek1(2/2) mice were viable with no apparent phenotype, indicating rescue by MEK2 and functional redundancy between the two MEK proteins. However, Mek1(2/-) embryos with Mek2 in only one of the Mek1 alleles and the other Mek1 allele null died from abnormal placenta, suggesting a dosage effect. Analysis of mice from a Mek1 Mek2 allelic series revealed that the occurrence of the placenta phenotype correlated with the amount of MEK protein independently of which MEK isoform was produced. Thus, although MEK1 and MEK2 can substitute for each other, a minimum amount of MEK is critical for placenta development and embryo survival.
OCRL mutations are associated with both Lowe syndrome and Dent-2 disease, two rare X-linked conditions. Lowe syndrome is an oculo-cerebro-renal disorder, whereas Dent-2 patients mainly present renal proximal tubulopathy. Loss of OCRL-1, a phosphoinositide-5-phosphatase, leads in Lowe patients' fibroblasts to phosphatidylinositol-4,5-bisphosphate (PI(4,5)P2) accumulation, with defects in F-actin network, α-actinin distribution and ciliogenesis, whereas fibroblasts of Dent-2 patients are still uncharacterized. To search for mechanisms linked to clinical variability observed between these two OCRL mutation-associated pathologies, we compared dermal fibroblasts from independent patients, four affected by Dent-2 disease and six with Lowe syndrome. For the first time, we describe that Dent-2 fibroblasts with OCRL loss-of-function (LOF) mutations exhibit decrease in actin stress fibers, appearance of punctate α-actinin signals and alteration in primary cilia formation. Interestingly, we quantified these phenotypes as clearly intermediate between Lowe and control fibroblasts, thus suggesting that levels of these defects correlate with clinical variations observed between patients with OCRL mutations. In addition, we show that Lowe and Dent-2 fibroblasts display similar PI(4,5)P2 accumulation levels. Finally, we analyzed INPP5B, a paralogous gene already reported to exhibit functional redundancy with OCRL, and report neither differences in its expression at RNA or protein levels, nor specific allelic variations between fibroblasts of patients. Altogether, we describe here differential phenotypes between fibroblasts from Lowe and Dent-2 patients, both associated with OCRL LOF mutations, we exclude direct roles of PI(4,5)P2 and INPP5B in this phenotypic variability and we underline potential key alterations leading to ocular and neurological clinical features in Lowe syndrome.
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