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Abstract

Zebrafish (Danio rerio) is recognized as a versatile model for hematopoietic studies due to its transparency, genetic similarity to humans, and ease of manipulation. This study describes a protocol for the ex vivo extraction and differentiation of macrophages from the renal medulla of zebrafish using transgenic lines and L929 cell-conditioned medium (LCCM) as an alternative to recombinant M-CSF. Adult TgMpegmCherry zebrafish were maintained under controlled conditions. Following euthanasia, renal medullary cells were isolated, treated with antibiotics, and cultured in either LCCM or recombinant human M-CSF. Macrophage differentiation was assessed using confocal microscopy (mCherry), flow cytometry, and functional phagocytosis assays. The protocol enabled efficient differentiation of progenitor cells into macrophages, with an average of 49.1% mCherry+ cells after 7 days in LCCM, outperforming recombinant M-CSF. Differentiated cells demonstrated strong phagocytic activity, confirming macrophage functionality. This method provides an accessible approach to obtaining ex vivo zebrafish-derived macrophages, enabling immunological and hematopoietic studies and allowing for functional comparisons with traditional murine macrophage protocols.

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References

Gore

, Pillay

, Venero Galanternik

, Weinstein

. The zebrafish: A fintastic model for hematopoietic development and disease. WIREs Developmental Biology, 2018; 7(3).

Outtandy

, Russell

, Kleta

, Bockenhauer

. Zebrafish as a model for kidney function and disease. Pediatr Nephrol, 2019; 34(5):751–762.

Lieschke

, Oates

, Crowhurst

, Ward

, Layton

. Morphologic and functional characterization of granulocytes and macrophages in embryonic and adult zebrafish. Blood, 2001; 98(10):3087–3096.

Herbomel

, Thisse

. Ontogeny and behaviour of early macrophages in the zebrafish embryo. Development, 1999; 126(17):3735–3745.

Liu

, Wu

, Fan

, He

, Li

, He

. Isoliquiritin promote angiogenesis by recruiting macrophages to improve the healing of zebrafish wounds. Fish Shellfish Immunol, 2020; 100:238–245.

Rice

, Rossi

, Bradford

, Elkins

, de Pascalis

. rM-CSF efficiently replaces L929 in generating mouse and rat bone marrow-derived macrophages for in vitro functional studies of immunity to intracellular bacteria. J Immunol Methods, 2020; 477:112693.

Loes

, Hinman

, Farnsworth

, Miller

, Guillemin

, Harms

. Identification and Characterization of Zebrafish Tlr4 Coreceptor Md-2. J Immunol, 2021; 206(5):1046–1057.

Nguyen-Chi

, Laplace-Builhe

, Travnickova

, et al. Identification of polarized macrophage subsets in zebrafish. Elife, 2015; 4:e07288.

, Chen

. Specific function and modulation of teleost monocytes/macrophages: Polarization and phagocytosis. Zool Res, 2019; 40(3):146–150.

10.

Weischenfeldt

, Porse

. Bone Marrow-Derived Macrophages (BMM): Isolation and Applications. CSH Protoc, 2008; 2008(12):pdb.prot5080.

11.

de Brito Monteiro

, Davanzo

, de Aguiar

, et al. M-CSF- and L929-derived macrophages present distinct metabolic profiles with similar inflammatory outcomes. Immunobiology, 2020; 225(3):151935.

12.

Toda

, Yamauchi

, Kadowaki

, Ueki

. Preparation and culture of bone marrow-derived macrophages from mice for functional analysis. STAR Protoc, 2021; 2(1):100246.

13.

Singh

, Sripada

, Singh

. Side effects of antibiotics during bacterial infection: Mitochondria, the main target in host cell. Mitochondrion, 2014; 16:50–54.

14.

Heap

, Marín-Rubio

, Peltier

, et al. Proteomics characterisation of the L929 cell supernatant and its role in BMDM differentiation. Life Sci Alliance, 2021; 4(6):e202000957.

Extraction of Ex Vivo Macrophages from the Renal Medulla of Zebrafish ( Danio rerio )

Abstract

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