GENETIC REGULATION OF HEMATOPOIETIC STEM CELL NUMBERS IN MICE

LIANG, YING

01 January 2005

Hematopoietic stem cells (HSCs) transplantations are widely used for the treatment of hematological and non-hematological disorders in clinic. Successful transplantation requires sufficient number and efficient homing of HSCs. Many studies have focused on developing an effective strategy to expand functional HSC population. Some regulatory molecules have been recently shown great promise for controlling the amplification of HSCs. In these dissertation studies, I first aim to identify gene(s) and their allelic variants contributing to strain-specific difference in HSC numbers between C57BL/6 (B6, low) and DBA/2 (D2, high) mice by using a classic forward genetic approach. Firstly, 3 quantitative trait loci (QTL) on chromosome (Chr) 3,5 and 18 were mapped by linkage analyses and confirmed in congenic mice. Secondly, Chr.3 QTL affected several HSC number-related biological processes. The D2 allele increased cycling and self-renewal whereas it decreased apoptotic rates of HSCs. Both actions conspired to increase HSC population size. Lastly, a small number of differentially-expressed genes was identified in Chr.3 congenic HSCs by a microarray-based candidate gene method, and the differential expression of one candidate, latexin, was found to relate to HSC number variations. Our studies report the strong evidence for the potential functions of latexin in HSC number regulation, and they are important for understanding molecular mechanisms of stem cell regulation and developing effective stem cell expansion strategies for clinical applications. In the second part of my studies, I studied homing and engraftment capabilities of HSCs. By using functional assays for progenitor and stem cells, I first reported the absolute homing efficiencies of murine young or old donor cells into young or old recipient mice. The results indicated that homing of primitive hematopoietic cells was not efficient and significantly decreased by aging of donors and recipients. The proliferation and differentiation states of HSCs were also impaired by homing itself, as well as by donors' and recipients age. Moreover, the hematopoietic reconstitution dynamics following transplantation were also affected by aging. Together, these findings will provide useful information for clinical applications especially when older individuals increasing serve as stem cell donors for elderly patients.

Role of CD26/DPPIV in the Homing and Engraftment of Long-Term CD34- Negative Hematopoietic Stem Cells

Allehaibi, Hanaa S.

04 1900

CD26/DPPIV is a dipeptidyl peptidase that cleaves and destroys a variety of substrates such as the chemokine SDF-1α, a chemokine expressed along bone marrow endothelium, which is essential for the recruitment of hematopoietic stem cells (HSCs) via binding with its receptor CXCR4 to the bone marrow. Thus, CD26 is thought to interfere with the second step, chemokine/chemokine receptor interactions, of the cellular migration paradigm. To further study the role of CD26 in the migration of HSCs, we screened several human leukemic cell lines to find a model cell line that expresses active CD26 and discovered that the pro-monocytic cell line, U937 was optimal for this purpose. U937 cells were used to optimize a variety of assays including an CD26 activity assay and transwell migration assay with and without the use of a CD26 inhibitor, Diprotin A. Then, we isolated short-term and long-term HSCs from the bone marrow of C57BL/6N mice using a combination of surface markers and a fluorescence-activated cell sorter. The expression levels of Step 2’s homing molecules were measured by FACS in both fractions of HSCs. Interestingly, we detected differences in the expression of CD26 between these two populations that may help explain the inability of long-term HSCs to migrate to the bone marrow. Thus, through the use of a CD26 inhibitor the long-term HSCS migration to the bone marrow could be enhanced, leading to a prolonged and efficient stem cell engraftment activity. Such studies are could help develop protocols to improve stem cell engraftment for patients suffering from hematological diseases such as leukemia.

CD26/DPPIV

Hematopoietic Stem Cells

CD34 Negative HSCs

Long-Term HSCs

Homing and Engraftment

U937 cells