In vitro models to study cutaneous innervation mechanisms (original) (raw)

Elsevier eBooks, 2018

Abstract

The skin is densely innervated to transmit all sensations (touch, temperature, pressure, pain, and pruritus) but not only it. Indeed, innervation plays a major role in the structuration of the epidermis, in its renewal, and in the process as wound healing. There are increasing evidences that skin cells and cutaneous nerve endings are in close interactions each other. So, to study them is an important issue to better understand the behavior of the skin and its both physiological and pathological processes. However, due to scientific, technical, ethical, or economic reasons, the study of these interactions in human or animals in vivo remains quite impossible. So, the development of in vitro models is crucial to better understand them. Since several years, all the actors of these interactions, skin cells such as keratinocytes, fibroblasts, melanocytes, Merkel cells or stem cells, and sensory neurons, could be extracted and cultured independently or together so named 2-D cocultures. Other cocultures, the 3-D cocultures, could also be considered by the use of the epidermis or dermis or whole portions of native or reconstructed skin. These 3-D models offer also an alternative by the use of compartmented cocultures to only analyze the biochemical communication between the different types of cells. After a description of the different models available, this chapter will give some clues to define the best model(s) depending of the applications and, finally, will discuss of the advantages and the limitations of these types of cultures to study cutaneous innervation mechanisms.

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