Abstract
Circadian clock and Smad2/3/4-mediated Nodal signaling regulate multiple physiological and pathological processes. However, it remains unknown whether Clock directly cross-talks with Nodal signaling and how this would regulate embryonic development. Here we show that Clock1a coordinated mesoderm development and primitive hematopoiesis in zebrafish embryos by directly up-regulating Nodal-Smad3 signaling. We found that Clock1a is expressed both maternally and zygotically throughout early zebrafish development. We also noted that Clock1a alterations produce embryonic defects with shortened body length, lack of the ventral tail fin, or partial defect of the eyes. Clock1a regulates the expression of the mesodermal markers ntl, gsc, and eve1 and of the hematopoietic markers scl, lmo2, and fli1a Biochemical analyses revealed that Clock1a stimulates Nodal signaling by increasing expression of Smad2/3/4. Mechanistically, Clock1a activates the smad3a promoter via its E-box1 element (CAGATG). Taken together, these findings provide mechanistic insight into the role of Clock1a in the regulation of mesoderm development and primitive hematopoiesis via modulation of Nodal-Smad3 signaling and indicate that Smad3a is directly controlled by the circadian clock in zebrafish.
Highlights
Circadian clock and Smad2/3/4-mediated Nodal signaling regulate multiple physiological and pathological processes
Clock1a activates the smad3a promoter via its E-box1 element (CAGATG). These findings provide mechanistic insight into the role of Clock1a in the regulation of mesoderm development and primitive hematopoiesis via modulation of Nodal-Smad3 signaling and indicate that Smad3a is directly controlled by the circadian clock in zebrafish
We reported that the zebrafish Clock1a expressed both maternally and zygotically, which raised the possibility that Clock1a may regulate primitive hematopoiesis indirectly by controlling mesoderm development
Summary
Circadian clock and Smad2/3/4-mediated Nodal signaling regulate multiple physiological and pathological processes. We show that Clock1a coordinated mesoderm development and primitive hematopoiesis in zebrafish embryos by directly up-regulating Nodal-Smad signaling. Clock1a activates the smad3a promoter via its E-box element (CAGATG) Taken together, these findings provide mechanistic insight into the role of Clock1a in the regulation of mesoderm development and primitive hematopoiesis via modulation of Nodal-Smad signaling and indicate that Smad3a is directly controlled by the circadian clock in zebrafish. E-box sites are defined as mainly 6-bp DNA elements recognized by bHLH transcription factors and are distinguished by having a consensus sequence of CANNTG [11] They facilitate the transcription of various genes involved in cell growth, differentiation, and survival as well as circadian rhythms [12,13,14]. The zebrafish model offers a plethora of molecular-genetic techniques and bioinformatics tools, including methods for transgenesis, mutagenesis, gene knockdown, and targeted genome modifications, together with advanced genomic annotation [15, 16]
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