Identification of mouse cochlear progenitors that develop hair and supporting cells in the organ of Corti.

The adult mammalian cochlear sensory epithelium houses two major types of cells, mechanosensory hair cells and underlying supporting cells, and lacks regenerative capacity. Recent evidence indicates that a subset of supporting cells can spontaneously regenerate hair cells after ablation only within the first week postparturition. Here in vivo clonal analysis of mouse inner ear cells during development demonstrates clonal relationship between hair and supporting cells in sensory organs. We report the identification in mouse of a previously unknown population of multipotent stem/progenitor cells that are capable of not only contributing to the hair and supporting cells but also to other cell types, including glia, in cochlea undergoing development, maturation and repair in response to damage. These multipotent progenitors originate from Eya1-expressing otic progenitors. Our findings also provide evidence for detectable regenerative potential in the postnatal cochlea beyond 1 week of age.

Eya1 interacts with Six2 and Myc to regulate expansion of the nephron progenitor pool during nephrogenesis.

Self-renewal and proliferation of nephron progenitor cells and the decision to initiate nephrogenesis are crucial events directing kidney development. Despite recent advancements in defining lineage and regulators for the progenitors, fundamental questions about mechanisms driving expansion of the progenitors remain unanswered. Here we show that Eya1 interacts with Six2 and Myc to control self-renewing cell activity. Cell fate tracing reveals a developmental restriction of the Eya1(+) population within the intermediate mesoderm to nephron-forming cell fates and a common origin shared between caudal mesonephric and metanephric nephrons. Conditional inactivation of Eya1 leads to loss of Six2 expression and premature epithelialization of the progenitors. Six2 mediates translocation of Eya1 to the nucleus, where Eya1 uses its threonine phosphatase activity to control Myc phosphorylation/dephosphorylation and function in the progenitor cells. Our results reveal a functional link between Eya1, Six2, and Myc in driving the expansion and maintenance of the multipotent progenitors during nephrogenesis.

Initiation of olfactory placode development and neurogenesis is blocked in mice lacking both Six1 and Six4.

Mouse olfactory epithelium (OE) originates from ectodermally derived placode, the olfactory placode that arises at the anterior end of the neural plate. Tissue grafting and recombination experiments suggest that the placode is derived from a common preplacodal domain around the neural plate and its development is directed by signals arising from the underlying mesoderm and adjacent neuroectoderm. In mice, loss of Six1 affects OE morphogenesis but not placode formation. We show here that embryos lacking both Six1 and Six4 failed to form the olfactory placode but the preplacodal region appeared to be specified as judged by the expression of Eya2, which marks the common preplacodal domain, suggesting a synergistic requirement of Six1 and Six4 in patterning the preplacodal ectoderm to a morphologic placode. Our results show that Six1 and Six4 are coexpressed in the preplacodal ectoderm from E8.0. In the olfactory pit, Six4 expression was observed in the peripheral precursors that overlap with Mash1-expressing cells, the early committed neuronal lineage. In contrast, Six1 is highly distributed in the peripheral regions where stem cells reside at E10.5 and it overlaps with Sox2 expression. Both genes are expressed in the basal and apical neuronal progenitors in the OE. Analyses of Six1;Six4 double mutant embryos demonstrated that the slightly thickened epithelium observed in the mutant was not induced for neuronal development. In contrast, in Six1(-/-) embryos, all neuronal lineage markers were initially expressed but the pattern of their expression was altered. Although very few, the pioneer neurons were initially present in the Six1 mutant OE. However, neurogenesis ceased by E12.5 due to markedly increased cell apoptosis and reduced proliferation, thus defining the cellular defects occurring in Six1(-/-) OE that have not been previously observed. Our findings demonstrate that Six1/4 function at the top of early events controlling olfactory placode formation and neuronal development. Our analyses show that the threshold of Six1/4 may be crucial for the expression of olfactory specific genes and that Six1 and Six4 may act synergistically to mediate olfactory placode specification and patterning through Fgf and Bmp signaling pathways.

Serotonin transporter and tryptophan hydroxylase gene polymorphisms in Chinese patients with generalized anxiety disorder.

BACKGROUND: The serotonin transporter (5-HTT) and tryptophan hydroxylase (TPH) gene are important candidate genes for the psychiatric disorders. Many studies of patients with anxiety disorders have found abnormalities of serotonin metabolism and dysfunction of regulation in the transporter itself. In this study, we hypothesize that genetic variation in the 5-HTT and TPH gene may have an effect on the etiology of generalized anxiety disorder (GAD). METHODS: Using a polymerase chain reaction-based technique, the allele and genotype frequencies of three polymorphisms in the serotonin transporter gene (a deletion/insertion polymorphism in the transcriptional control region and a variable number of tandem repeats in intron 2) and TPH gene (A218C in intron 7) were analyzed in 138 patients with GAD and 90 healthy controls. These two groups were matched for ethnic and geographic origin. RESULTS: The frequencies of 5-HTT gene-linked functional polymorphic region (5-HTTLPR) SS (short/short) genotype were significantly higher in GAD patients than in control subjects (68% versus 49%, chi = 12.274, df = 2, P = 0.002), and the frequencies of S (short) allele observed in the GAD patients were higher than those in healthy subjects (79 versus 71%, chi = 4.063, df = 1, P = 0.044). The odds ratio for the SS genotype versus the other two genotypes was 2.33 (95% confidence interval, 1.29-3.86). Similarly, the odds ratio for the S allele versus L allele was 1.56 (95% confidence interval, 1.01-2.41). The genotypic and allelic distribution of 5-HTT VNTR and TPH A218C polymorphisms did not show statistically significant differences between patients and controls. CONCLUSION: Our findings support that the presence of 5-HTTLPR-SS genotype may increase the risk of GAD.