TinChung Leung

Guidance of primordial germ cell migration by the chemokine SDF-1.

The signals directing primordial germ cell (PGC) migration in vertebrates are largely unknown. We demonstrate that sdf-1 mRNA is expressed in locations where PGCs are found and toward which they migrate in wild-type as well as in mutant embryos in which PGC migration is abnormal. Knocking down SDF-1 or its receptor CXCR4 results in severe defects in PGC migration. Specifically, PGCs that do not receive the SDF-1 signal exhibit lack of directional movement toward their target and arrive at ectopic positions within the embryo. Finally, we show that the PGCs can be attracted toward an ectopic source of the chemokine, strongly suggesting that this molecule provides a key directional cue for the PGCs.

Bozozok directly represses bmp2b transcription and mediates the earliest dorsoventral asymmetry of bmp2b expression in zebrafish

Formation of the gastrula organizer requires suppression of ventralizing signals and, in fish and frog, the need to counteract the effect of ubiquitously present maternal factors that activate the expression of Bmps. How the balance between dorsalizing and ventralizing factors is shifted towards organizer establishment at late blastula stages is not well understood. Mutations in zebrafish bozozok (boz) cause severe defects in axial mesoderm and anterior neurectoderm and affect organizer formation. The boz gene encodes the homeodomain protein Bozozok/Dharma and its expression in the region of the organizer is activated through β-catenin signaling. Here, we investigate the molecular mechanism by which boz contributes to the establishment of the organizer. We demonstrate that the homeodomain protein Boz acts as a transcriptional repressor in zebrafish: overexpression of an En-Boz fusion protein can rescue the boz phenotype, whereas a VP16-Boz fusion protein acts as an antimorph. Expression analysis of bmp2b indicates that Boz negatively regulates bmp2b in the prospective organizer. We demonstrate that this Boz activity is independent of that of other zygotic genes, because it also occurs when translation of zygotic genes is suppressed by cycloheximide (CHX). We identify two high-affinity binding sites for Boz within the first intron of the bmp2b gene. Deletion of these control elements abolishes Boz-dependent repression of bmp2b in the early blastula. Thus, Boz directly represses bmp2b by binding to control elements in the bmp2b locus. We propose that early transcriptional repression of bmp2b by Boz is one of the first steps toward formation of a stable organizer, whereas the later-acting Bmp antagonists (e.g. Chordin, Noggin) modulate Bmp activity in the gastrula to induce patterning along the dorsoventral axis. Thus, similar to Drosophila Dpp, asymmetry of Bmp expression in zebrafish is initiated at the transcriptional level, and the shape of the gradient and its function as a morphogen are later modulated by post-transcriptional mechanisms.

PTP1B regulates neurite extension mediated by cell-cell and cell-matrix adhesion molecules

N‐cadherin and β1‐integrin adhesion and signaling play important roles in growth cone adhesion and guidance. Each of these adhesion receptor systems is composed of multiprotein complexes, and both adhesion and downstream signaling events are regulated through the interaction of protein tyrosine kinases and phosphatases with many of the proteins that make up these complex systems. Work from our laboratory reported that the nonreceptor protein tyrosine phosphatase PTP1B is localized to adherens junctions and focal adhesion complexes and regulates both N‐cadherin‐ and β1‐integrin‐mediated adhesion. PTP1B appears to modulate integrin‐mediated adhesion through regulation of src activation and cadherin‐mediated adhesion through dephosphorylation of β‐catenin. We have continued these studies and report that PTP1B is localized to the tips of growing neurites and that introduction of a noncatalytic mutant of PTP1B into PC12 cells results in inhibition of N‐cadherin‐ and β1‐integrin‐mediated neurite outgrowth but is without effect on neurite outgrowth on poly‐L‐lysine. Moreover, suppressing the level of PTP1B in primary embryonic chick neural retina cells using antisense oligonucleotides also inhibits N‐cadherin‐ and β1‐integrin‐mediated neurite outgrowth. Neither of these techniques reduces the levels of expression of either adhesion receptor. We conclude that PTP1B is a regulatory component of the molecular complex required for both N‐cadherin and β1‐integrin‐mediated axon growth. J. Neurosci. Res. 63:143–150, 2001.

Direct binding of Lef1 to sites in the boz promoter may mediate pre-midblastula-transition activation of boz expression.

The Nieuwkoop center provides signals essential for the establishment of the dorsal gastrula organizer in vertebrates. Activation of β‐catenin is one of the events in the Nieuwkoop center that lead to activation of dorsal‐specific genes during blastula and early gastrula stages. Zebrafish bozozok (boz) mutant embryos have severe defects in axial mesoderm and anterior neuroectoderm. The boz gene is activated in the organizer in response to β‐catenin signaling, and Boz protein has been demonstrated to contribute to organizer formation by repression of ventralizing genes, including bmp2b, vega1, and vega2. Here, we investigate the timing and molecular mechanism by which boz expression is activated in the organizer. We demonstrate that boz is already expressed before midblastula transition (MBT). We further identify high‐affinity binding sites for Tcf/Lef1 within the boz promoter region. These sites, together with the finding that β‐catenin induces boz expression, indicate that transcription of boz may be activated directly by β‐catenin/Lef1. We hypothesize that pre‐MBT activation of boz may be important to build up a sufficiently strong antagonizing activity against zygotic ventralizing genes activated immediately post‐MBT. Thus, the early onset of boz expression may be crucial for organizer establishment in the presence of ubiquitous maternal activators of ventralizing genes. Developmental Dynamics, 2003.

Metabolic effects of bovine growth hormone in the tilapia Oreochromis mossambicus

1. Bovine growth hormone (bGH) was injected into tilapia intramuscularly at a dose of 50 micrograms/100 g/day for a total of five injections. Control fish received saline instead. 2. The serum concentrations of amino acid and glucose were significantly higher and hepatic glycogen concentration and glycogen synthetase activity significantly lower in the bGH-treated fish than those in the control fish. 3. The serum concentrations of protein, lipid and cholesterol, and the hepatic concentrations of protein and lipid, remained unaltered after bGH treatment. 4. The results suggest that bGH exerts anti-insulin effects in tilapia.

The orphan G protein-coupled receptor 161 is required for left-right patterning.

Gpr161 (also known as RE2) is an orphan G protein-coupled receptor (GPCR) that is expressed during embryonic development in zebrafish. Determining its biological function has proven difficult due to lack of knowledge regarding its natural or synthetic ligands. Here, we show that targeted knockdown of gpr161 disrupts asymmetric gene expression in the lateral plate mesoderm, resulting in aberrant looping of the heart tube. This is associated with elevated Ca(2+) levels in cells lining the Kupffers vesicle and normalization of Ca(2+) levels, by over-expression of ncx1 or pmca-RNA, is able to partially rescue the cardiac looping defect in gpr161 knockdown embryos. Taken together, these data support a model in which gpr161 plays an essential role in left-right (L-R) patterning by modulating Ca(2+) levels in the cells surrounding the Kupffers vesicle.

Growth hormone binding sites in tilapia (Oreochromis mossambicus) liver

125I-labeled bovine and tilapia growth hormones were used to assess the presence of growth hormone receptors in membranes prepared from tissues of the tilapia Oreochromis mossambicus. The highest level of specific binding was detected in liver membranes from animals of both sexes and the binding was protein-dependent. Tilapia growth hormone, bovine growth hormone, and ovine prolactin, but not tilapia prolactin, potently inhibited the hepatic binding of 125I-labeled bovine growth hormone. Scatchard analysis of the 125I-labeled bovine growth hormone binding data revealed a Bmax (maximum binding) value of 180 fmol/mg protein and a Kd (dissociation constant) value of 13 nM. Tilapia growth hormone potently inhibited hepatic binding of 125I-labeled tilapia growth hormone. Scatchard analysis revealed a single class of binding sites with Bmax and Kd values of 390 fmol/mg protein and 2.5 nM, respectively. Bovine growth hormone and ovine prolactin were less potent while tilapia prolactin was inactive in inhibiting hepatic 125I-labeled tilapia growth hormone binding.