Chathurini Fernando - Academia.edu (original) (raw)

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Papers by Chathurini Fernando

Stem Cells and Development, 2014

During development of the central nervous system, trophic, together with genetic, cues dictate th... more During development of the central nervous system, trophic, together with genetic, cues dictate the balance between cellular proliferation and differentiation. Subsequent to the birth of new neurons, additional intrinsic and extrinsic signals regulate the connectivity of these cells. While a number of regulators of ventral midbrain (VM) neurogenesis and dopaminergic (DA) axon guidance are known, we identify a number of novel roles for the secreted glycoprotein, Wnt7a, in this context. We demonstrate a temporal and spatial expression of Wnt7a in the VM, indicative of roles in neurogenesis, differentiation, and axonal growth and guidance. In primary VM cultures, and validated in Wnt7a-deficient mice, we show that the early expression within the VM is important for regulating VM progenitor proliferation, cell cycle progression, and cell survival, thereby dictating the number of midbrain Nurr1 precursors and DA neurons. During early development of the midbrain DA pathways, Wnt7a promotes axonal elongation and repels DA neurites out of the midbrain. Later, Wnt7a expression in the VM midline suggests a role in preventing axonal crossing while expression in regions flanking the medial forebrain bundle (thalamus and hypothalamus) ensured appropriate trajectory of DA axons en route to their forebrain targets. We show that the effects of Wnt7a in VM development are mediated, at least in part, by the β-catenin/canonical pathways. Together, these findings identify Wnt7a as a new regulator of VM neurogenesis and DA axon growth and guidance.

Stem Cells and Development, 2013

Ryk is an atypical transmembrane receptor tyrosine kinase that has been shown to play multiple ro... more Ryk is an atypical transmembrane receptor tyrosine kinase that has been shown to play multiple roles in development through the modulation of Wnt signaling. Within the developing ventral midbrain (VM), Wnts have been shown to contribute to the proliferation, differentiation, and connectivity of dopamine (DA) neurons; however, the Wnt-related receptors regulating these events remain less well described. In light of the established roles of Wnt5a in dopaminergic development (regulating DA differentiation as well as axonal growth and repulsion), and its interaction with Ryk elsewhere within the central nervous system, we investigated the potential role of Ryk in VM development. Here we show temporal and spatial expression of Ryk within the VM, suggestive of a role in DA neurogenesis and axonal plasticity. In VM primary cultures, we show that the effects of Wnt5a on VM progenitor proliferation, DA differentiation, and DA axonal connectivity can be inhibited using an Ryk-blocking antibody. In support, Ryk knockout mice showed reduced VM progenitors and DA precursor populations, resulting in a significant decrease in DA cells. However, Ryk -/mice displayed no defects in DA axonal growth, guidance, or fasciculation of the MFB, suggesting other receptors may be involved and/or compensate for the loss of this receptor. These findings identify for the first time Ryk as an important receptor for midbrain DA development.

Stem Cells and Development, 2010

PLoS ONE, 2011

During development, precise temporal and spatial gradients are responsible for guiding axons to t... more During development, precise temporal and spatial gradients are responsible for guiding axons to their appropriate targets. Within the developing ventral midbrain (VM) the cues that guide dopaminergic (DA) axons to their forebrain targets remain to be fully elucidated. Wnts are morphogens that have been identified as axon guidance molecules. Several Wnts are expressed in the VM where they regulate the birth of DA neurons. Here, we describe that a precise temporo-spatial expression of Wnt5a accompanies the development of nigrostriatal projections by VM DA neurons. In mice at E11.5, Wnt5a is expressed in the VM where it was found to promote DA neurite and axonal growth in VM primary cultures. By E14.5, when DA axons are approaching their striatal target, Wnt5a causes DA neurite retraction in primary cultures. Co-culture of VM explants with Wnt5a-overexpressing cell aggregates revealed that Wnt5a is capable of repelling DA neurites. Antagonism experiments revealed that the effects of Wnt5a are mediated by the Frizzled receptors and by the small GTPase, Rac1 (a component of the non-canonical Wnt planar cell polarity pathway). Moreover, the effects were specific as they could be blocked by Wnt5a antibody, sFRPs and RYK-Fc. The importance of Wnt5a in DA axon morphogenesis was further verified in Wnt5a 2/2 mice, where fasciculation of the medial forebrain bundle (MFB) as well as the density of DA neurites in the MFB and striatal terminals were disrupted. Thus, our results identify a novel role of Wnt5a in DA axon growth and guidance.

Molecular and Cellular Endocrinology, 2005

The melanocortin 4 receptor (MC4R) plays a critical role in the regulation of energy homeostasis,... more The melanocortin 4 receptor (MC4R) plays a critical role in the regulation of energy homeostasis, and the MC4R knockout mouse and humans with MC4R defective mutations in only one allele indicate that there is a gene dosage effect. Alterations in gene expression levels for MC4R could, therefore, have significant effects on energy homeostasis. To begin to develop a mouse model for studies on MC4R promoter in situ we used ∼1 kb mouse MC4R promoter together with 426 bp MC4R 5 UTR, previously shown to support basal expression of reporter gene transcription in cell lines with endogenous MC4R mRNA, and fused this DNA to a nuclear localized LacZ reporter gene. The construct was injected into pronuclei from FVB mice. Five transgenic lines were identified as carrying autosomal transgene insertions; three of these had significant ␤-galactosidase staining in brain and in a few cells in the heart but not in kidney, liver, lung, gonadal fat or testis. The pattern of transgene expression in the brain differed markedly for the three lines, and in one of these lines was remarkably similar to endogenous MC4R mRNA expression observed using in situ hybridisation. In conclusion, ∼1 kb mouse MC4R promoter is sufficient to direct gene expression to the brain including regions that express endogenous MC4R mRNA.