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Shin, Jeong-Oh,Ankamreddy, Harinarayana,Jakka, Naga Mahesh,Lee, Seokwon,Kim, Un-Kyung,Bok, Jinwoong UPV/EHU Press 2017 The international journal of developmental biology Vol.61 No.8
<P>The mammalian inner ear is a complex organ responsible for balance and hearing. Sonic hedgehog (Shh), a member of the Hedgehog (Hh) family of secreted proteins, has been shown to play important roles in several aspects of inner ear development, including dorsoventral axial specification, cochlear elongation, tonotopic patterning, and hair cell differentiation. Hh proteins initiate a downstream signaling cascade by binding to the Patched 1 (Ptch1) receptor. Recent studies have revealed that other types of co-receptors can also mediate Hh signaling, including growth arrest-specific 1 (Gas1), cell-adhesion molecules-related/down-regulated by oncogenes (Cdon), and biregional Cdon binding protein (Boc). However, little is known about the role of these Hh co-receptors in inner ear development. In this study, we examined the expression patterns of Gas1, Cdon, and Boc, as well as that of Ptch1, in the developing mouse inner ear from otocyst (embryonic day (E) 9.5) until birth and in the developing middle ear at E15.5. Ptch1, a readout of Hh signaling, was expressed in a graded pattern in response to Shh signaling throughout development. Expression patterns of Gas1, Cdon, and Boc differed from that of Ptch1, and each Hh co-receptor was expressed in specific cells and domains in the developing inner and middle ear. These unique and differential expression patterns of Hh co-receptors suggest their roles in mediating various time-and space-specific functions of Shh during ear development.</P>
Fukuda, Masakazu,Takahashi, Shuji,Haramoto, Yoshikazu,Onuma, Yasuko,Kim, Yeon-Jin,Yeo, Chang-Yeol,Ishiura, Shoichi,Asashima, Makoto UPV/EHU Press 2010 The International journal of developmental biology Vol.54 No.1
<P>The T-box gene VegT plays a crucial role during mesendoderm specification of the amphibian embryo. While the function of maternal VegT (mVegT) has been extensively investigated, little is known about the function and transcriptional regulation of zygotic VegT (zVegT). In the present study, we used comparative genomics and a knockdown experiment to demonstrate that zVegT is the orthologous gene of zebrafish Spadetail/Tbx16 and chick Tbx6L/Tbx6, and has an essential role in paraxial mesodermal formation. zVegT knockdown embryos show several defects in the patterning of trunk mesoderm, such as abnormal segmentation of somites, a reduction in muscle, and the formation of an abnormal mass of cells at the tail tip. We also identified the cis-regulatory elements of zVegT that are necessary and sufficient for mesoderm-specific expression. These cis-regulatory elements are located in two separate upstream regions of zVegT, corresponding to the first intron of mVegT. The results of in vitro binding and functional assays indicate that Forkhead box H1 (FoxH1) and Eomesodermin (Eomes) are the trans-acting factors required for zVegT expression. Our results highlight the essential role of zVegT in organization of paraxial mesoderm, and reveal that zVegT is regulated by a coherent feedforward loop of Nodal signaling via Eomes.</P>
Over-expression of thymosin beta4 promotes abnormal tooth development and stimulation of hair growth
Cha, Hee-Jae,Philp, Deborah,Lee, Soo-Hyun,Moon, Hye-Sung,Kleinman, Hynda K.,Nakamura, Takashi UPV/EHU Press 2010 The International journal of developmental biology Vol.54 No.1
<P>Thymosin beta 4 has multi-functional roles in cell physiology. It accelerates wound healing, hair growth and angiogenesis, and increases laminin-5 expression in corneal epithelium. Furthermore, thymosin beta 4 stimulates tumor growth and metastasis by induction of cell migration and vascular endothelial growth factor-mediated angiogenesis. Using a construct on the skin-specific keratin-5 promoter, we have developed thymosin beta 4 over-expressing transgenic mice to further study its functional roles. Thymosin beta 4 in adult skin and in embryonic stages of the transgenic mouse was analyzed by both Western blot and immunohistochemistry. The over-expression of thymosin beta 4 was observed especially around hair follicles and in the teeth in the transgenic mice. We examined the phenotype of the thymosin beta 4 over-expressing mice. Hair growth was accelerated. In addition, the transgenic mice had abnormally-shaped white teeth and dull incisors. We found that the expression of laminin-5 was up-regulated in the skin of the transgenic mice. We conclude that thymosin beta 4 has an important physiological role in hair growth and in tooth development.</P>
Enhanced development of porcine embryos cloned from bone marrow mesenchymal stem cells
Jin, Hai-feng,Kumar, B Mohana,Kim, Jung-Gon,Song, Hye-Jin,Jeong, Yeon-Ji,Cho, Seong-Keun,Balasubramanian, Sivasankaran,Choe, Sang-Yong,Rho, Gyu-Jin UPV/EHU Press 2007 The international journal of developmental biology Vol.51 No.1
<P>In the present study, we have characterized an isolated population of porcine bone marrow mesenchymal stem cells (MSCs) for multilineage commitment and compared the developmental potential of cloned embryos with porcine MSCs and fetal fibroblasts (FFs). MSCs exhibited robust alkaline phosphatase activity and later transformed into mineralized nodules following osteoinduction. Furthermore, MSCs underwent adipogenic and chondrogenic differentiation by producing lipid droplets and proteoglycans, respectively. Primary cultures of FFs from a female fetus at ~30 day of gestation were established. Donor cells at 3-4 passage were employed for nuclear transfer (NT). Cell cycle analysis showed that the majority of MSCs in confluence were in the G0/G1 stage. Cumulus-oocyte complexes were matured and fertilized in vitro (IVF) as control. The cleavage rate was significantly (P<0.05) higher in IVF than in NT embryos with MSCs and FFs (84.54.6% vs. 52.25.4% and 50.85.2%, respectively). However, blastocyst rates in IVF and NT embryos derived from MSCs (20.62.5% and 18.43.0%) did not differ, but were significantly (P<0.05) higher than NT derived from FFs (9.52.1%). Total cell number and the ratio of ICM to total cells among blastocysts cloned from MSCs (34.45.2 and 0.380.08, respectively) were significantly (P<0.05) higher than those from FFs (22.65.5 and 0.180.12, respectively). Proportions of TUNEL positive cells in NT embryos from FFs (7.31.8%) were significantly (P<0.05) higher than in MSCs (4.61.3%) and IVF (2.50.9%). The results clearly demonstrate that multipotent bone marrow MSCs have a greater potential as donor cells than FFs in achieving enhanced production of cloned porcine embryos.</P>