The tumour suppressor, miR-137, inhibits malignant melanoma migration by targetting the TBX3 transcription factor.

The transcription factor, TBX3, is a key driver of malignant melanoma and any drug that impacts its expression is likely to have an impact on the treatment of this highly aggressive and treatment resistant cancer. Replacement of miRNAs that target oncogenes has gained much attention as a therapy because it is anticipated to be effective with little side-effects since miRNAs are naturally occurring and often target large set of genes in the same oncogenic pathway. Here we show that miR-137 levels correlate inversely with TBX3 mRNA levels in a panel of melanoma cell lines and in a cohort of patients with primary melanoma. Low levels of miR-137 and high levels of TBX3 are shown to be associated with poor patient survival. We show that miR-137 binds a conserved site in the TBX3 3' untranslated region and that a miR-137 mimic significantly reduces endogenous levels of TBX3 and inhibits anchorage independent growth and migration of malignant melanoma cells. Novel data are provided that the miR-137/TBX3/E-cadherin axis plays an important role in melanomagenesis and that miR-137 replacement is a potential therapeutic approach for treating melanomas.

Reduced Euchromatin histone methyltransferase 1 causes developmental delay, hypotonia, and cranial abnormalities associated with increased bone gene expression in Kleefstra syndrome mice.

Haploinsufficiency of Euchromatin histone methyltransferase 1 (EHMT1), a chromatin modifying enzyme, is the cause of Kleefstra syndrome (KS). KS is an intellectual disability (ID) syndrome, with general developmental delay, hypotonia, and craniofacial dysmorphisms as additional core features. Recent studies have been focused on the role of EHMT1 in learning and memory, linked to the ID phenotype of KS patients. In this study we used the Ehmt1(+/-) mouse model, and investigated whether the core features of KS were mimicked in these mice. When comparing Ehmt1(+/-) mice to wildtype littermates we observed delayed postnatal growth, eye opening, ear opening, and upper incisor eruption, indicating a delayed postnatal development. Furthermore, tests for muscular strength and motor coordination showed features of hypotonia in young Ehmt1(+/-) mice. Lastly, we found that Ehmt1(+/-) mice showed brachycephalic crania, a shorter or bent nose, and hypertelorism, reminiscent of the craniofacial dysmorphisms seen in KS. In addition, gene expression analysis revealed a significant upregulation of the mRNA levels of Runx2 and several other bone tissue related genes in P28 Ehmt1(+/-) mice. Runx2 immunostaining also appeared to be increased. The mRNA upregulation was associated with decreased histone H3 lysine 9 dimethylation (H3K9me2) levels, the epigenetic mark deposited by Ehmt1, in the promoter region of these genes. Together, Ehmt1(+/-) mice indeed recapitulate KS core features and can be used as an animal model for Kleefstra syndrome. The increased expression of bone developmental genes in the Ehmt1(+/-) mice likely contributes to their cranial dysmorphisms and might be explained by diminished Ehmt1-induced H3K9 dimethylation.