• 제목/요약/키워드: hemocyte differentiation

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Intrinsic and Extrinsic Regulation of Hematopoiesis in Drosophila

  • Koranteng, Ferdinand;Cho, Bumsik;Shim, Jiwon
    • Molecules and Cells
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    • 제45권3호
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    • pp.101-108
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    • 2022
  • Drosophila melanogaster lymph gland, the primary site of hematopoiesis, contains myeloid-like progenitor cells that differentiate into functional hemocytes in the circulation of pupae and adults. Fly hemocytes are dynamic and plastic, and they play diverse roles in the innate immune response and wound healing. Various hematopoietic regulators in the lymph gland ensure the developmental and functional balance between progenitors and mature blood cells. In addition, systemic factors, such as nutrient availability and sensory inputs, integrate environmental variabilities to synchronize the blood development in the lymph gland with larval growth, physiology, and immunity. This review examines the intrinsic and extrinsic factors determining the progenitor states during hemocyte development in the lymph gland and provides new insights for further studies that may extend the frontier of our collective knowledge on hematopoiesis and innate immunity.

Iron Homeostasis Controls Myeloid Blood Cell Differentiation in Drosophila

  • Yoon, Sunggyu;Cho, Bumsik;Shin, Mingyu;Koranteng, Ferdinand;Cha, Nuri;Shim, Jiwon
    • Molecules and Cells
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    • 제40권12호
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    • pp.976-985
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    • 2017
  • Iron is an essential divalent ion for aerobic life. Life has evolved to maintain iron homeostasis for normal cellular and physiological functions and therefore imbalances in iron levels exert a wide range of consequences. Responses to iron dysregulation in blood development, however, remain elusive. Here, we found that iron homeostasis is critical for differentiation of Drosophila blood cells in the larval hematopoietic organ, called the lymph gland. Supplementation of an iron chelator, bathophenanthroline disulfate (BPS) results in an excessive differentiation of the crystal cell in the lymph gland. This phenotype is recapitulated by loss of Fer1HCH in the intestine, indicating that reduced levels of systemic iron enhances crystal cell differentiation. Detailed analysis of Fer1HCH-tagged-GFP revealed that Fer1HCH is also expressed in the hematopoietic systems. Lastly, blocking Fer1HCH expression in the mature blood cells showed marked increase in the blood differentiation of both crystal cells and plasmatocytes. Thus, our work suggests a relevance of systemic and local iron homeostasis in blood differentiation, prompting further investigation of molecular mechanisms underlying iron regulation and cell fate determination in the hematopoietic system.

배추흰나비의 變態에 따른 血球細胞의 組織化學的 硏究 (Histochemical Study on the Hemocytes during Metamorphosis)

  • Kim, Chang-Whan;Kim, Woo-Kap;Kim, Yong-Kuk
    • 한국동물학회지
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    • 제11권4호
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    • pp.103-117
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    • 1968
  • 1. 變態時期에 따른 배추흰나비(Pieris rapae)의 血球를 組織化學的方法 및 autoradiographic method 에 의거하여 硏究하였다. 2.幼蟲, 전용 및 용기에서 形態의變化와 細胞內容物을 土臺로 血球細胞를 prohemocyte, plasmatocyte, podocyte, granular hemocyte, spherule cell 및 oenocytoid 의 6型으로 分類했다. 3, 幼蟲基에서 용기까지의 血球를 組織化學的으로 硏究하고 血球細胞內의 蛋白質, 核酸, 多糖類 및 脂質을 檢出하였으며, 成長 및 變態에 따른 그들 物質의 消長을 밝혔다, 4. Granular hemocyte 와 spherule cell 의 大部分의 顆粒은 glycogen, neutral mucopolysaccharide, mucoprotein 으로 되었고 neutral fat와 phospholipid 의 顆粒도 나타났다, 5. 細胞分裂像(mitotic figure) 과 tritium-thymidine 攝取세포 (DNA 合成細胞)를 幼蟲 2齡부터 5齡까지의 各種 未分化血球에서 觀察하였고, 모든型의 血球가 prohemocyte에 起源함을 밝혔다. 6. Plasmatocyte 와 podocyte 의 細胞質突起가 전용기 와 용기에 매우 길게 伸張함을 보아 vermiform cell 은 plasmatocyte 의 더 分化한 型이라고 생각된다.

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The Role of Lozenge in Drosophila Hematopoiesis

  • Koranteng, Ferdinand;Cha, Nuri;Shin, Mingyu;Shim, Jiwon
    • Molecules and Cells
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    • 제43권2호
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    • pp.114-120
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    • 2020
  • Drosophila hematopoiesis is comparable to mammalian differentiation of myeloid lineages, and therefore, has been a useful model organism in illustrating the molecular and genetic basis for hematopoiesis. Multiple novel regulators and signals have been uncovered using the tools of Drosophila genetics. A Runt domain protein, lozenge, is one of the first players recognized and closely studied in the hematopoietic lineage specification. Here, we explore the role of lozenge in determination of prohemocytes into a special class of hemocyte, namely the crystal cell, and discuss molecules and signals controlling the lozenge function and its implication in immunity and stress response. Given the highly conserved nature of Runt domain in both invertebrates and vertebrates, studies in Drosophila will enlighten our perspectives on Runx-mediated development and pathologies.

메뚜기 체내와 체외에서 혈구생성 경로 추적에 관한 연구 (Study on the Detection of In vivo and In vitro Hemocytic Pathway in Grasshopper, Euprepicnemis shirakii)

  • 장병수
    • Applied Microscopy
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    • 제33권2호
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    • pp.131-143
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    • 2003
  • 메뚜기 체내와 체외에서 혈구 분화경로를 광학현미경과 전자현미경으로 관찰하였다. 조혈기관에서 혈구의 형성은 망상세포에 둘러싸인 줄기세포에서부터 유래되었으며, 줄기세포에서부터 원시혈구, 무정형혈구, I형 과립혈구, II형 과립혈구, 소구혈구 및 편도혈구가 각각 분화되는 것을 확인하였다. 곤충배지에 배양된 조혈조직에서 각각 다른 형태의 혈구들이 분화되어 방출되었다. 그러나, 이들 혈구들의 유사분열상은 관찰되지 않았다. 배지의 조혈기관에서 분화된 세포들의 형태학적 특징들은 메뚜기 체내의 조혈기관에서 분화된 세포들과 같았다. 이와 같은 결과는 줄기세포가 각각의 서로 다른 혈구들로 직접 분화하는 것을 의미한다. 본 연구 결과 조혈기관의 줄기세포는 각각의 혈구로 직접 분화할 수 있는 기능을 가지고 있었으며, 체내와 체외에서 한번 형성된 순환 혈구는 다른 혈구의 형태로 변형되지 않았다. 메뚜기에서 순환혈구의 유지는 복부 등쪽 첫 번째 마디에서 여덟 번째 마디 사이의 익상근 위에 광범위하게 존재하고 있는 조혈기관에 전적으로 의존하였다.