The effect of preosteoblast-derived exosomes on bone marrow macrophages (BMMΦ) and calvarial osteoblasts (cOB) was evaluated in vitro, and bone formation studies were performed in vivo in mice. Preosteoblastic MC3T3-E1 clone 4 (MC4) cell-derived exosomes (MC4exo) were characterized with particle tracking, transmission electron microscopy and western blot analysis to validate size, number, shape and phenotypic exosome markers. Exosomes pre-labelled with PKH67 were incubated with BMMΦ and phagocytosis of exosomes was confirmed. To examine the effect of MC4exo on macrophage polarization, BMMΦ were treated with MC4exo and the expression of pro- and anti-inflammatory cytokines was determined by qPCR. MC4exo treatment upregulated mRNA expression of Cd86, Il1β, Ccl2, Rankl and Nos, and downregulated Cd206, Il10 and Tnfα, suggesting a shift towards pro-inflammatory ‘M1-like’ macrophage polarization. Combination of RANKL and MC4exo increased osteoclast differentiation of BMMΦ in comparison to RANKL alone as analysed by TRAP staining. MC4exo treatment showed no significant effect on calvarial osteoblast mineralization. For in vivo studies, intratibial inoculation of MC4exo (2 × 109 particles in PBS, n = 12) and vehicle control (PBS only, n = 12) was performed in C57Bl/6 mice (8 weeks, male). Micro-CT analyses of the trabecular and cortical bone compartments were assessed at 4 weeks post-injection. Tibial sections were stained for TRAP activity to determine osteoclast presence and immunofluorescence staining was performed to detect osteocalcin (Ocn), osterix (Osx) and F4/80 expression. Intratibial inoculation of MC4exo increased the diaphyseal bone mineral density and trabecular bone volume fraction due to increased trabecular number. This increase in bone was accompanied by a reduction in bone marrow macrophages and osteoclasts at the experimental endpoint. Together, these findings suggest that preosteoblast-derived exosomes enhanced bone formation by influencing macrophage responses.