Localization and origins of juvenile skeletogenic cells in the sea urchin Lytechinus pictus

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Heidi M. Tate , Vanessa Barone , Catherine S. Schrankel , Amro Hamdoun , Deirdre C. Lyons
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Abstract

The development of the sea urchin larval body plan is well understood from extensive studies of embryonic patterning. However, fewer studies have investigated the late larval stages during which the unique pentaradial adult body plan develops. Previous work on late larval development highlights major tissue changes leading up to metamorphosis, but the location of specific cell types during juvenile development is less understood. Here, we improve on technical limitations by applying highly sensitive hybridization chain reaction fluorescent in situ hybridization (HCR-FISH) to the fast-developing and transparent sea urchin Lytechinus pictus, with a focus on skeletogenic cells. First, we show that HCR-FISH can be used in L. pictus to precisely localize skeletogenic cells in the rudiment. In doing so, we provide a detailed staging scheme for the appearance of skeletogenic cells around the rudiment prior to and during biomineralization and show that many skeletogenic cells unassociated with larval rods localize outside of the rudiment prior to localizing inside. Second, we show that downstream biomineralization genes have similar expression patterns during larval and juvenile skeletogenesis, suggesting some conservation of skeletogenic mechanisms during development between stages. Third, we find co-expression of blastocoelar and skeletogenic cell markers around juvenile skeleton located outside of the rudiment, which is consistent with data showing that cells from the non-skeletogenic mesoderm embryonic lineage contribute to the juvenile skeletogenic cell lineage. This work sets the foundation for subsequent studies of other cell types in the late larva of L. pictus to better understand juvenile body plan development, patterning, and evolution.

Abstract Image

皮氏海胆幼体骨骼形成细胞的定位和起源
通过对胚胎形态的广泛研究,人们对海胆幼体体表的发育有了很好的了解。然而,对海胆幼体晚期独特的五边形成体体型发育的研究较少。以前关于幼虫晚期发育的研究突出了变态前的主要组织变化,但对幼虫发育过程中特定细胞类型的位置了解较少。在这里,我们将高灵敏度杂交链反应荧光原位杂交(HCR-FISH)应用于快速发育的透明海胆(Lytechinus pictus),重点研究骨骼形成细胞,从而改善了技术上的局限性。首先,我们证明了 HCR-FISH 可以在象鼻海胆中用于精确定位胚胎中的骨骼形成细胞。在此过程中,我们提供了一个详细的分期方案,用于描述在生物矿化之前和过程中胚乳周围出现的成骨细胞,并表明许多与幼虫棒状体无关的成骨细胞先在胚乳外定位,然后才在胚乳内定位。其次,我们发现下游生物矿化基因在幼虫和幼体骨骼形成过程中具有相似的表达模式,这表明不同阶段的骨骼形成机制在一定程度上是一致的。第三,我们发现位于胚胎嵴外的幼体骨骼周围的胚泡和骨骼生成细胞标记共同表达,这与非骨骼生成中胚层胚系细胞对幼体骨骼生成细胞系的贡献的数据一致。这项工作为随后研究象鼻虫晚期幼体的其他细胞类型奠定了基础,从而更好地了解幼体的体表发育、模式化和进化。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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