Pathogenic variants in cause recessive central conducting lymphatic anomaly with lymphedema.

Central conducting lymphatic anomaly (CCLA), characterized by the dysfunction of core collecting lymphatic vessels including the thoracic duct and cisterna chyli, and presenting as chylothorax, pleural effusions, chylous ascites, and lymphedema, is a severe disorder often resulting in fetal or perinatal demise. Although pathogenic variants in RAS/mitogen activated protein kinase (MAPK) signaling pathway components have been documented in some patients with CCLA, the genetic etiology of the disorder remains uncharacterized in most cases. Here, we identified biallelic pathogenic variants in , encoding the MyoD family inhibitor domain containing protein, in seven individuals with CCLA from six independent families.

Vasculogenic hyperprolactinemia: severe prolactin excess in association with internal carotid artery aneurysms.

Purpose: Internal carotid artery (ICA) aneurysms have rarely been found in association with marked hyperprolactinemia in the absence of prolactinoma; the cause of hyperprolactinemia has never been investigated. We aimed to determine if the observed hyperprolactinemia is due to a vascular-derived or known prolactin secretagogue from the injured ICA, analogous to pregnancy-associated hyperprolactinemia putatively due to placental factors.

Methods: We conducted a case series and literature review of individuals with severe hyperprolactinemia in association with ICA aneurysms.

In depth analysis of the Sox4 gene locus that consists of sense and natural antisense transcripts.

SRY (Sex Determining Region Y)-Box 4 or Sox4 is an important regulator of the pan-neuronal gene expression during post-mitotic cell differentiation within the mammalian brain. Sox4 gene locus has been previously characterized with multiple sense and overlapping natural antisense transcripts [1], [2]. Here we provide accompanying data on various analyses performed and described in Ling et al.

Derivation of an endogenous small RNA from double-stranded Sox4 sense and natural antisense transcripts in the mouse brain.

Natural antisense transcripts (NATs) are involved in cellular development and regulatory processes. Multiple NATs at the Sox4 gene locus are spatiotemporally regulated throughout murine cerebral corticogenesis. In the study, we evaluated the potential functional role of Sox4 NATs at Sox4 gene locus.

Heritable GATA2 mutations associated with familial myelodysplastic syndrome and acute myeloid leukemia.

We report the discovery of GATA2 as a new myelodysplastic syndrome (MDS)-acute myeloid leukemia (AML) predisposition gene. We found the same, previously unidentified heterozygous c.1061C>T (p.

Deep sequencing analysis of the developing mouse brain reveals a novel microRNA.

Background: MicroRNAs (miRNAs) are small non-coding RNAs that can exert multilevel inhibition/repression at a post-transcriptional or protein synthesis level during disease or development. Characterisation of miRNAs in adult mammalian brains by deep sequencing has been reported previously. However, to date, no small RNA profiling of the developing brain has been undertaken using this method.

Stress-induced premature senescence mediated by a novel gene, SENEX, results in an anti-inflammatory phenotype in endothelial cells.

Cellular senescence is a mechanism to inhibit the growth of mammalian cells after oncogenic activation, or in response to damage or stress. We describe here the identification of a novel gene, SENEX, that regulates stress induced premature senescence pathways in endothelial cells (ECs) involving p16(INK4a) and retinoblastoma protein activation. Endogenous levels of SENEX remain unchanged during replicative senescence but are regulated by H(2)O(2)-mediated stress.