Adult circulating CD34+ stem progenitor cells (HSPCs) participate in vascular repair by stimulating angiogenic functions of the endothelium via paracrine mechanisms. Aging and diabetes are associated with reduced number and impaired vasculogenic potential of CD34+cells. Previous studies showed that diabetic dysfunction was largely due to the paracrine pro‐inflammatory and anti‐angiogenic switch in the phenotype of CD34+ cells. Furthermore, diabetic cells have a higher potential to generate pro‐inflammatory monocyte‐macrophages. We have recently shown that older‐diabetic (DB) cells have increased expression of transforming growth factor β1 (TGF‐β1) compared to the age‐matched nondiabetic (ND) cells. Transient silencing of this pleiotropic regulator restored reparative functions such as migration, proliferation, and nitric oxide generation.The current study tested the hypothesis that TGF‐β1‐silencing reverses myelopoietic bias and paracrine pro‐inflammatory phenotype in CD34+ cells derived from diabetic older adults. Expression of alarmins and receptor for advanced glycation end‐products (RAGE) were evaluated.CD34+ cells were isolated from either male or female non‐diabetic (ND) (n=31) or diabetic (DB), both type 1 and type 2, (n=39) subjects. Phosphorodiamidate morpholino oligomers (PMO) were used for TGF‐β1‐silencing. Circulating CD34+cells and monocyte‐macrophages were enumerated by flow cytometry in both groups. Gene‐expression assays were carried out by qPCR. Myelopoiesis was determined by CFU‐GM assay followed by characterization of monocytes and macrophages by flow cytometry.Circulating CD34+ cells (p<0.05, n=31) and classical monocytes (anti‐inflammatory, CD14++CD16‐) were lower (p<0.05, n=16) whereas non‐classical (pro‐inflammatory, CD14lowCD16++) monocytes (P<0.05, n=16) were higher in DB compared to the ND group. However, no differences were observed in the intermediate monocyte and macrophage populations in circulation between the groups. DB‐CD34+ cells generated a higher number of colonies in the CFU‐GM assay than ND cells. Nonclassical monocytes were higher in DB‐CFUs (p<0.05 vs ND‐CFUs, n=4) with no difference in classical or intermediate monocytes. A higher number of pro‐inflammatory (CCR2+CD68+) (p<0.05, n=4) and lower number of anti‐inflammatory (CX3CR1+CD206+) macrophages (p<0.05, n=4) were detected in DB‐CFUs compared to that observed in ND‐CFUs. This imbalance was not observed in DB‐cells that were modified with TGF β1‐PMO. Gene expression of S100A8/S100A9, S100A10, S100A14, S100P, HMGb1 and RAGE were higher (p<0.05, n=5) in DB CD34+ cells compared to the ND. These changes were reversed by TGFβ1‐PMO. RAGE‐antagonist recapitulated the effects of TGFβ1‐PMO in assays for myelopoiesis.This study suggests that silencing of TGF‐β1 is a promising approach for enhancing the revascularization potential of CD34+cells from diabetic older adults by reversing the paracrine pro‐inflammatory functions that would negatively impact vascular repair.