Ly6d marks the earliest stage of B-cell specification and identifies the branchpoint between B-cell and T-cell development
MA Inlay, D Bhattacharya, D Sahoo… - Genes & …, 2009 - genesdev.cshlp.org
Genes & development, 2009•genesdev.cshlp.org
Common lymphoid progenitors (CLPs) clonally produce both B-and T-cell lineages, but
have little myeloid potential in vivo. However, some studies claim that the upstream
lymphoid-primed multipotent progenitor (LMPP) is the thymic seeding population, and
suggest that CLPs are primarily B-cell-restricted. To identify surface proteins that distinguish
functional CLPs from B-cell progenitors, we used a new computational method of Mining
Developmentally Regulated Genes (MiDReG). We identified Ly6d, which divides CLPs into …
have little myeloid potential in vivo. However, some studies claim that the upstream
lymphoid-primed multipotent progenitor (LMPP) is the thymic seeding population, and
suggest that CLPs are primarily B-cell-restricted. To identify surface proteins that distinguish
functional CLPs from B-cell progenitors, we used a new computational method of Mining
Developmentally Regulated Genes (MiDReG). We identified Ly6d, which divides CLPs into …
Common lymphoid progenitors (CLPs) clonally produce both B- and T-cell lineages, but have little myeloid potential in vivo. However, some studies claim that the upstream lymphoid-primed multipotent progenitor (LMPP) is the thymic seeding population, and suggest that CLPs are primarily B-cell-restricted. To identify surface proteins that distinguish functional CLPs from B-cell progenitors, we used a new computational method of Mining Developmentally Regulated Genes (MiDReG). We identified Ly6d, which divides CLPs into two distinct populations: one that retains full in vivo lymphoid potential and produces more thymocytes at early timepoints than LMPP, and another that behaves essentially as a B-cell progenitor.
genesdev.cshlp.org