Conditional Gata2 inactivation results in HSC loss and lymphatic mispatterning
Kim-Chew Lim, … , Masayuki Yamamoto, James Douglas Engel
Kim-Chew Lim, … , Masayuki Yamamoto, James Douglas Engel
Published September 10, 2012
Citation Information: J Clin Invest. 2012;122(10):3705-3717. https://doi.org/10.1172/JCI61619.
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Research Article

Conditional Gata2 inactivation results in HSC loss and lymphatic mispatterning

Abstract

The transcription factor GATA-2 plays vital roles in quite diverse developmental programs, including hematopoietic stem cell (HSC) survival and proliferation. We previously identified a vascular endothelial (VE) enhancer that regulates GATA-2 activity in pan-endothelial cells. To more thoroughly define the in vivo regulatory properties of this enhancer, we generated a tamoxifen-inducible Cre transgenic mouse line using the Gata2 VE enhancer (Gata2 VECre) and utilized it to temporally direct tissue-specific conditional loss of Gata2. Here, we report that Gata2 VECre–mediated loss of GATA-2 led to anemia, hemorrhage, and eventual death in edematous embryos. We further determined that the etiology of anemia in conditional Gata2 mutant embryos involved HSC loss in the fetal liver, as demonstrated by in vitro colony-forming and immunophenotypic as well as in vivo long-term competitive repopulation experiments. We further documented that the edema and hemorrhage in conditional Gata2 mutant embryos were due to defective lymphatic development. Thus, we unexpectedly discovered that in addition to its contribution to endothelial cell development, the VE enhancer also regulates GATA-2 expression in definitive fetal liver and adult BM HSCs, and that GATA-2 function is required for proper lymphatic vascular development during embryogenesis.

Authors

Kim-Chew Lim, Tomonori Hosoya, William Brandt, Chia-Jui Ku, Sakie Hosoya-Ohmura, Sally A. Camper, Masayuki Yamamoto, James Douglas Engel

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Figure 4

Reduced HSC numbers in Tx-treated TgVE:Gata2–/fl FLs.

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Reduced HSC numbers in Tx-treated TgVE:Gata2–/fl FLs. FLs recovered fr...
FLs recovered from E14.5 embryos that had been exposed to Tx in utero were mechanically disrupted, individually processed, and stained with various antibodies prior to analysis by flow cytometry. (A and B) Representative contour plots for the LSK fraction of 3 Tx-treated Gata2 control (TgVE:Gata2+/fl, TgVE:Gata2+/–, and Gata2–/fl in A; Gata2+/+, TgVE:Gata2+/+, and Gata2–/+ in B) and 3 Tx-treated compound mutant TgVE:Gata2–/fl embryos, which were administered Tx in utero on E9–E11 (A) or E11–E13 (B). The fraction of LSK cells in the gated areas used to quantify the HSC compartment (boxed) is shown. LSK cells were essentially absent in the Tx-treated TgVE:Gata2–/fl FLs whether Cre was induced during or after the initiation of definitive hematopoiesis. The total number of LSK (C) and LSKS (LSK Slam or LSKCD150+CD48; D) cells recovered from the livers of E14.5 embryos, which had been exposed to Tx from E9 to E11, of various Gata2 genotypes are represented (the ordinate axis is on log scale). Gata2 wild-type and pseudo-wild-type (Gata2+/+, TgVE:Gata2+/+, Gata2+/fl [+/+]; n = 6), Gata2 heterozygous (Gata2–/fl, TgVE:Gata2+/–, TgVE:Gata2+/fl [+/–]; n = 9), and TgVE:Gata2–/fl (Tg:–/fl; n = 4). Data were compiled from two independent experiments; horizontal black bars represent the mean number of LSK (C) or LSKS (D) cells of each group of embryos. Statistical significance was determined by Student’s t test. (E) Prominent mCh expression in FL LSK and LSKS cells. FL cells from Tx-treated (from E9 to E11) E14.5 embryos were analyzed for mCh expression by flow cytometry. A large fraction of E14.5 FL LSK or LSKS cells express mCh in TgVE-positive Gata2 wild-type (Tg:+/+; n = 2) as well as TgVE-positive Gata2 heterozygous (TgVE:Gata2+/–, TgVE:Gata2+/fl [Tg:+/–]; n = 5) embryos. Compared with the LSK cells recovered from Tg:+/+ and Tg:+/– FLs (2.2 × 104 to 5.7 × 104 and 1.3 × 104 to 4 × 104, respectively), very few LSK cells (98–477) were recovered from TgVE:Gata2–/fl (Tg:–/fl; n = 4) embryos. Compared with the LSKS cells recovered from Tg:+/+ and Tg:+/– FLs (1.2 × 103 to 4 × 103 and 0.5 × 102 to 1.6 × 102, respectively), a minuscule number of LSKS cells were recovered from TgVE:Gata2–/fl FLs. Although there appears to be little difference in mCh+ LSK and LSKS percentages in Tx-treated TgVE:+/+ and TgVE:+/– FLs, the absolute number indeed drops by half.