Immune Ontogeny and Engraftment Receptivity in the Sheep Fetus

Skopal-Chase, Jessica L.; Pixley, John S.; Torabi, Alireza; Cenariu, Mihai; Bhat, Anupama; Thain, David; Frederick, Nicole M.; Groza, Daria; Zanjani, Esmail D.

doi:10.1159/000203399

Cited by 16 publications

(5 citation statements)

References 62 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Another possibility is the gestational day of injection. zanjani et al [27] injected cells at days 51-71 of gestation, whereas we injected cells at days 45-49 of gestation. However, according to our previous studies [1,2,24,28], the gestational day of fetal sheep for performing the cell injection (45-79 gestational days) did not affect the engraftment efficiency, either.…”

Section: Discussionmentioning

confidence: 98%

A Long-term Follow-up Study on the Engraftment of Human Hematopoietic Stem Cells in Sheep

2014

View full text Add to dashboard Cite

Xenograft models of human hematopoiesis are essential to the study of the engraftment and proliferative potential of human hematopoietic stem cells (HSCs) in vivo. Immunodeficient mice and fetal sheep are often used as xenogeneic recipients because they are immunologically naive. In this study, we transplanted human HSCs into fetal sheep and assessed the long-term engraftment of transplanted human HSCs after birth. Fourteen sheep were used in this study. In 4 fetal sheep, HSCs were transduced with homeo-box B4 (HOXB4) gene before transplantation, which promoted the expansion of HSCs. Another 4 fetal sheep were subjected to non-myeloablative conditioning with busulfan. Seven of these 8 sheep showed successful engraftment of human HSCs (1-3% of colonyforming units) as assessed after the birth of fetal sheep (5 months post-transplantation), although HOXB4-transduced HSCs showed sustained engraftment for up to 40 months. Intact HSCs were transplanted into six non-conditioned fetal sheep, and human colony-forming units were not detected in the sheep after birth. These results suggest that, as compared with mouse models, where the short lifespan of mice limits long-term follow-up of HSC engraftment, the fetal sheep model provides a unique perspective for evaluating long-term engraftment and proliferation of human HSCs.

show abstract

Section: Discussionmentioning

confidence: 98%

A Long-term Follow-up Study on the Engraftment of Human Hematopoietic Stem Cells in Sheep

2014

View full text Add to dashboard Cite

show abstract

“…In contrast, CD146 ++− cells enhanced BM hematopoietic engraftment whether they were administered 3 days prior to the HSC graft or concomitantly with it. The ability of CD146 ++− , but not CD146 +++ , cells to enhance hematopoietic engraftment when transplanted simultaneously with the HSC, suggests that the effect of CD146 ++− cells could be mediated, at least in part, by their ability to alter the innate and adaptive immune responses ( Domev et al., 2014 , English et al., 2010 , Le Blanc and Davies, 2015 , Le Blanc et al., 2007 ), perhaps protecting the transplanted HSC from the rudimentary immune elements present within the fetus at this stage of gestation ( Skopal-Chase et al., 2009 ).…”

Section: Discussionmentioning

confidence: 99%

Boosting Hematopoietic Engraftment after in Utero Transplantation through Vascular Niche Manipulation

et al. 2016

Self Cite

View full text Add to dashboard Cite

SummaryIn utero hematopoietic stem/progenitor cell transplantation (IUHSCT) has only been fully successful in the treatment of congenital immunodeficiency diseases. Using sheep as a large animal model of IUHSCT, we demonstrate that administration of CD146+CXCL12+VEGFR2+ or CD146+CXCL12+VEGFR2− cells prior to, or in combination with, hematopoietic stem/progenitor cells (HSC), results in robust CXCL12 production within the fetal marrow environment, and significantly increases the levels of hematopoietic engraftment. While in the fetal recipient, donor-derived HSC were found to reside within the trabecular bone, the increased expression of VEGFR2 in the microvasculature of CD146+CXCL12+VEGFR2+ transplanted animals enhanced levels of donor-derived hematopoietic cells in circulation. These studies provide important insights into IUHSCT biology, and demonstrate the feasibility of enhancing HSC engraftment to levels that would likely be therapeutic in many candidate diseases for IUHSCT.

show abstract

“…In addition to the unique characteristics of the fetus itself as a recipient, there are several additional advantages of selecting sheep as an animal model: 1) sheep are fairly close in size to humans during development and throughout life, which should greatly facilitate, or even eliminate the need for, scale-up of the protocol for clinical human therapies once promising results have been obtained in the fetal sheep model, 2) the physiology and developmental processes are similar and therefore, sheep have been for decades the model to study normal fetal growth and fetal abnormalities [182][183][184][185], 3) in contrast to mice and rats, sheep are outbred, and thus present a diverse genetic background, just like humans, 4) the development of sheep immune system has been extensively studied and it closely parallels that of humans [186][187][188][189][190][191][192][193][194], 5) the long lifespan and large size allows the study of cellular fate in the same animal for several years after transplantation, which provides critical answers about long-term efficacy and safety of the therapy in question. Collectively, these properties make the fetal sheep an ideal model in which to test the therapeutic potential of MSC and obtain results that could readily be translated into clinical studies.…”

Section: The Fetal Sheep Modelmentioning

confidence: 99%