Meng Chieh Shen scite author profile

Background: Hedgehog (Hh) signaling is required for embryogenesis and continues to play key roles postembryonically in many tissues, influencing growth, stem cell proliferation, and tumorigenesis. Systems for conditional regulation of Hh signaling facilitate the study of these postembryonic Hh functions. Results: We used the hsp70l promoter to generated three heat-shock-inducible transgenic lines that activate Hh signaling and one line that represses Hh signaling. Heat-shock activation of these transgenes appropriately recapitulates early embryonic loss or gain of Hh function phenotypes. Hh signaling remains activated 24 hr after heat shock in the Tg(hsp70l:shha-EGFP) and Tg(hsp70l:dnPKA-BGFP) lines, while a single heat shock of the Tg(hsp70l:gli1-EGFP) or Tg(hsp70l:gli2aDR-EGFP) lines results in a 6-to 12-hr pulse of Hh signal activation or inactivation, respectively. Using both in situ hybridization and quantitative polymerase chain reaction, we show that these lines can be used to manipulate Hh signaling through larval and juvenile stages. Key words: Sonic Hedgehog; Gli; heat shock; transgenic; zebrafish Key findings:Four new heat-shock-inducible transgenic lines allow temporal manipulation of Hedgehog (Hh) signaling in zebrafish.Heat shock of these lines effectively activates or represses Hh signaling through embryonic and early larval stages. Hh signaling is disrupted, but to a lesser degree, at larval and early adult stages. Hh signaling can be cell-autonomously increased or decreased at the transcriptional level, or activated noncell-autonomously at the level of the Sonic Hh (Shh) ligand. Two new Hh/Gli reporter lines sensitively label Hh responding cells throughout the life cycle and allow visualization of graded Hh responses in the CNS.

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Iron loaded ferritin secretion and inhibition by CI-976 in Aedes aegypti larval cells

Geiser¹,

Shen²,

Mayo³

et al. 2009

Comparative Biochemistry and Physiology Part B: Biochemistry an

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Ferritin is a multimer of 24 subunits of heavy and light chains. In mammals, iron taken into cells is stored in ferritin or incorporated into iron-containing proteins. Very little ferritin is found circulating in mammalian serum; most is retained in the cytoplasm. Female mosquitoes, such as Aedes aegypti (yellow fever mosquito, Diptera), require a blood meal for oogenesis. Mosquitoes receive a potentially toxic level of iron in the blood meal which must be processed and stored. We demonstrate by 59Fe pulse-chase experiments that cultured A. aegypti larval CCL-125 cells take up iron from culture media and store it in ferritin found mainly in the membrane fraction and secrete iron-loaded ferritin. We observe that in these larval cells ferritin co-localizes with ceramide-containing membranes in the absence of iron. With iron treatment, ferritin is found associated with ceramide-containing membranes as well as in cytoplasmic non-ceramide vesicles. Treatment of CCL-125 cells with iron and CI-976, an inhibitor of lysophospholipid acyl transferases, disrupts ferritin secretion with a concomitant decrease in cell viability. Interfering with ferritin secretion may limit the ability of mosquitoes to adjust to the high iron load of the blood meal and decrease iron delivery to the ovaries reducing egg numbers.

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Serum lipoprotein–derived fatty acids regulate hypoxia-inducible factor

Shao

Hwang

Liu

et al. 2020

Journal of Biological Chemistry

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Oxygen regulates hypoxia-inducible factor (HIF) transcription factors to control cell metabolism, erythrogenesis, and angiogenesis. While much has been elucidated about how oxygen regulates HIF, whether lipids affect HIF activity is unknown. Here, using cultured cells and two animal models, we demonstrate that lipoprotein-derived fatty acids are an independent regulator of HIF. Decreasing extracellular lipid supply inhibited HIF prolyl hydroxylation, leading to accumulation of the HIFα subunit of these heterodimeric transcription factors comparable to hypoxia with activation of downstream target genes. Addition of fatty acids to culture media suppressed this signal, which required an intact mitochondrial respiratory chain. Mechanistically, fatty acids and oxygen are distinct signals integrated to control HIF activity. Finally, we observed lipid signaling to HIF and changes in target gene expression in developing zebrafish and adult fluorescent reporter mice, and this pathway operates in cancer cells from a range of tissues. This study identifies fatty acids as a physiological modulator of HIF, defining a mechanism for lipoprotein regulation that functions in parallel to oxygen.

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Meng Chieh Shen

Heat‐shock–mediated conditional regulation of hedgehog/gli signaling in zebrafish

Iron loaded ferritin secretion and inhibition by CI-976 in Aedes aegypti larval cells

Serum lipoprotein–derived fatty acids regulate hypoxia-inducible factor

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