Cell communication modes and bidirectional mitochondrial exchange in direct and indirect macrophage/hMSC co-culture models

Abstract: Abstract:Macrophages are important cells of the innate immune system. They exhibit a high plasticity in phenotypes and play a major role in healing by initiating the early inflammatory reactions via the pro-inflammatory M1 phenotype. The anti-inflammatory M2 phenotype is assumed to induce regenerative processes and vascularization in subsequent tissue repair. Especially for regenerative processes, their interplay with multipotent human mesenchymal stromal cells (hMSCs) is decisive. Accordingly, in vitro co-cul… Show more

“…The SiCNWs-labeled hMSCs have a wire-like structure protruding from the membrane (Figure 3H), which could be microvilli for adhesion or tunneling nanotubes. [37] EDX mapping proves that most of these wire-like structures were SiCNWs because they contained silicon as indicated by the green arrows (Figure S1). One wire-like structure was broken into two parts and does not contain silicon (red arrow), and it is very likely to be a microvillus or tunneling nanotube.…”

Cellular toxicity of silicon carbide nanomaterials as a function of morphology

“…The SiCNWs-labeled hMSCs have a wire-like structure protruding from the membrane (Figure 3H), which could be microvilli for adhesion or tunneling nanotubes. [37] EDX mapping proves that most of these wire-like structures were SiCNWs because they contained silicon as indicated by the green arrows (Figure S1). One wire-like structure was broken into two parts and does not contain silicon (red arrow), and it is very likely to be a microvillus or tunneling nanotube.…”

Cellular toxicity of silicon carbide nanomaterials as a function of morphology