Botulinum hemagglutinin‐mediated in situ break‐up of human induced pluripotent stem cell aggregates for high‐density suspension culture

Large numbers of human induced pluripotent stem cells (hiPSCs) are required for making stable cell bank. Although suspension culture yields high cell numbers, there remain unresolved challenges for obtaining high‐density of hiPSCs because large size aggregates exhibit low growth rates. Here, we established a simple method for hiPSC aggregate break‐up using botulinum hemagglutinin (HA), which specifically bound with E‐cadherin and disrupted cell–cell connections in hiPSC aggregates. HA showed temporary activity for disrupting the E‐cadherin‐mediated cell–cell connections to facilitate the break‐up of aggregates into small sizes only 9 hr after HA addition. The transportation of HA into the aggregates was mediated by transcellular and paracellular way after HA addition to the culture medium. hiPSC aggregates broken up by HA showed a higher number of live cells, higher cell density, and higher expansion fold compared to those of aggregates dissociated with enzymatic digestion. Moreover, a maximum cell density of 4.5 ± 0.2 × 106 cells ml−1 was obtained by aggregate break‐up into small ones, which was three times higher than that with the conventional culture without aggregate break‐up. Therefore, the temporary activity of HA for disrupting E‐cadherin‐mediated cell–cell connection was key to establishing a simple in situ method for hiPSC aggregate break‐up in bioreactors, leading to high cell density in suspension culture. We established a simple method for aggregate break‐up into small ones by revealing the temporary effect of botulinum hemagglutinin which specifically bound with E‐cadherin, and disrupted cell–cell connections in hiPSCs aggregate in suspension culture. This approach obviated the need for enzymatic treatment for aggregate break‐up into small ones for achieving a high cell density in suspension culture.