Yadanar Htike scite author profile

Maize leaves have distinct tissues that serve specific purposes. The blade tilts back to photosynthesize and the sheath wraps around the stem to provide structural support and protect young leaves. At the junction between blade and sheath are the ligule and auricles, both of which are absent in the recessive liguleless1 (lg1) mutant. Using an antibody against LG1, we reveal LG1 accumulation at the site of ligule formation and in the axil of developing tassel branches. The dominant mutant Wavy auricle in blade1 (Wab1-R) produces ectopic auricle tissue in the blade and increases the domain of LG1 accumulation. We determined that wab1 encodes a TCP transcription factor by positional cloning and revertant analysis. Tassel branches are few and upright in the wab1 revertant tassel and have an increased branch angle in the dominant mutant. wab1 mRNA is expressed at the base of branches in the inflorescence and is necessary for LG1 expression. wab1 is not expressed in leaves, except in the dominant mutant. The domain of wab1 expression in the Wab1-R leaf closely mirrors the accumulation of LG1. Although wab1 is not needed to induce lg1 expression in the leaf, LG1 is needed to counteract the severe phenotype of the dominant Wab1-R mutant. The regulatory interaction of LG1 and WAB1 reveals a link between leaf shape and tassel architecture, and suggests the ligule is a boundary similar to that at the base of lateral organs.

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LATS1/2 suppress NFκB and aberrant EMT initiation to permit pancreatic progenitor differentiation

Braitsch¹,

Azizoglu²,

Htike³

et al. 2019

PLoS Biol

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The Hippo pathway directs cell differentiation during organogenesis, in part by restricting proliferation. How Hippo signaling maintains a proliferation-differentiation balance in developing tissues via distinct molecular targets is only beginning to be understood. Our study makes the unexpected finding that Hippo suppresses nuclear factor kappa-light-chain-enhancer of activated B cells (NFκB) signaling in pancreatic progenitors to permit cell differentiation and epithelial morphogenesis. We find that pancreas-specific deletion of the large tumor suppressor kinases 1 and 2 ( Lats1/2 PanKO ) from mouse progenitor epithelia results in failure to differentiate key pancreatic lineages: acinar, ductal, and endocrine. We carried out an unbiased transcriptome analysis to query differentiation defects in Lats1/2 PanKO . This analysis revealed increased expression of NFκB activators, including the pantetheinase vanin1 ( Vnn1 ). Using in vivo and ex vivo studies, we show that VNN1 activates a detrimental cascade of processes in Lats1/2 PanKO epithelium, including (1) NFκB activation and (2) aberrant initiation of epithelial-mesenchymal transition (EMT), which together disrupt normal differentiation. We show that exogenous stimulation of VNN1 or NFκB can trigger this cascade in wild-type (WT) pancreatic progenitors. These findings reveal an unexpected requirement for active suppression of NFκB by LATS1/2 during pancreas development, which restrains a cell-autonomous deleterious transcriptional program and thereby allows epithelial differentiation.

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Cyp26b1 is a critical regulator of distal airway epithelial differentiation during lung development

Daniel

Barlow

Sutton

et al. 2020

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Proper organ development depends on coordinated communication between multiple cell types. Retinoic acid (RA) is an autocrine and paracrine signaling molecule critical to development of most organs, including lung. Despite extensive work detailing effects of RA deficiency in early lung morphogenesis, little is known about how RA regulates late gestational lung maturation. Here, we investigate the role of the RA catabolizing protein Cyp26b1 in the lung. Cyp26b1 is highly enriched in lung endothelial cells (ECs) throughout development. We find that loss of Cyp26b1 leads to reduction of alveolar type 1 (AT1) cells, failure of alveolar inflation, and early postnatal lethality. Furthermore, we observe expansion of distal epithelial progenitors, but no appreciable changes in proximal airways, ECs, or stromal populations. Exogenous administration of RA during late gestation partially mimics these defects; however, transcriptional analyses comparing Cyp26b1−/− and RA-treated lungs reveal overlapping, but distinct, responses. These data suggest that defects observed in Cyp26b1−/− lungs are caused by both RA-dependent and RA-independent mechanisms. This work reports critical cellular crosstalk during lung development involving Cyp26b1-expressing endothelium and identifies a novel RA modulator in lung development.

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Rab11 is Essential to Pancreas Morphogenesis, Lumen Formation and Endocrine Mass

et al. 2022

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Rab11 is essential to pancreas morphogenesis, lumen formation and endocrine mass

Barlow

Ahuja

Bierschenk

et al. 2023

Developmental Biology

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Yadanar Htike

Gene regulatory interactions at lateral organ boundaries in maize

LATS1/2 suppress NFκB and aberrant EMT initiation to permit pancreatic progenitor differentiation

Cyp26b1 is a critical regulator of distal airway epithelial differentiation during lung development

Rab11 is Essential to Pancreas Morphogenesis, Lumen Formation and Endocrine Mass

Rab11 is essential to pancreas morphogenesis, lumen formation and endocrine mass

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