Abstract
The Hippo pathway was originally identified as an evolutionarily-conserved signaling mechanism that contributes to the control of organ size. It was then rapidly expanded as a key pathway in the regulation of tissue development, regeneration, and cancer pathogenesis. The increasing amount of evidence in recent years has also connected this pathway to the regulation of innate and adaptive immune responses. Notably, the Hippo pathway has been revealed to play a pivotal role in adaptive immune cell lineages, as represented by the patients with T- and B-cell lymphopenia exhibiting defective expressions of the pathway component. The complex regulatory mechanisms of and by the Hippo pathway have also been evident as alternative signal transductions are employed in some immune cell types. In this review article, we summarize the current understanding of the emerging roles of the Hippo pathway in adaptive immune cell development and differentiation. We also highlight the recent findings concerning the dual functions of the Hippo pathway in autoimmunity and anti-cancer immune responses and discuss the key open questions in the interplay between the Hippo pathway and the mammalian immune system.
Highlights
Since its initial discovery in Drosophila, the Hippo pathway has gained immense attention for being strongly involved in organ development [1,2,3,4], stem cell biology [5,6,7], regeneration [8,9,10], and cancer biology [11,12,13,14]
We focus on the current knowledge about the functions of the core Hippo pathway components in adaptive immunity, in lymphocyte homeostasis during their development and differentiation
When the kinase module is inactivated, into the nucleus wherein they bind to TEAD1–4 and induce proliferative and anti-apoptotic gene hypophosphorylated yes-associated protein (YAP)/TAZ translocate into the nucleus wherein they bind to TEAD1–4 and transcription
Summary
Since its initial discovery in Drosophila, the Hippo pathway has gained immense attention for being strongly involved in organ development [1,2,3,4], stem cell biology [5,6,7], regeneration [8,9,10], and cancer biology [11,12,13,14]. The molecular functions of MST1/2 in the mammalian adaptive immune system have been extensively studied in previous works, characterization of the other components of the Hippo pathway is an emerging field of research. In contrast to their pivotal functions in adherent cell physiology, it appears that YAP/TAZ are dispensable for physiological and malignant hematopoiesis [28]. Other signaling cascades that involve the core Hippo pathway components ( MST1/2) but do not regulate LATS1/2 kinase or YAP/TAZ are defined as the “alternative” Hippo pathway (Figure 1)
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