Abstract
<jats:p> The use of animal-derived reagents in biomedical research poses challenges for reproducibility due to batch-to-batch variability and inter-species differences, along with ethical concerns related to their origin. In pursuing a human-relevant <jats:italic>in vitro</jats:italic> model, an animal-free and defined cell culture process is preferred to improve relevance and reproducibility. We investigated the use of serum replacement (SR) consisting of human hepatocyte-derived proteins in cell culture and recombinant antibodies with a plant-derived blocking solution (animal-free blocker, AFB) in immunocytochemical staining of cells. Human serum (HS) instead of animal-derived serum was used in this study for comparison with SR. We showed that bone marrow stem/stromal cells (BMSCs) maintain their proliferation capacity and cell-specific morphology in SR-supplemented medium, whereas human umbilical vein endothelial cells (HUVECs) show compromised growth under similar conditions. In a more complex co-culture, BMSCs + HUVECs formed a stable vascular network in SR-supplemented medium. In immunocytochemical staining, we compared the performance of recombinant antibodies with animal-derived antibodies and an AFB solution with a bovine serum albumin (BSA)-based blocking solution. Adipose stem/stromal cells (ASCs) showed their typical spindle-shaped morphology when stained with recombinant antibodies against alpha-smooth muscle actin (αSMA) in both AFB and BSA-based blocking solutions. We detected partial non-specific binding of recombinant antibodies and animal-derived antibodies against β-tubulin III in ASC. In contrast, we did not observe non-specific binding on these neuronal antibodies in HUVECs in any tested condition. While protocol optimization depends on the cell type used, our findings indicate that animal-derived materials can reliably be replaced. </jats:p>