[HTML][HTML] Double-membrane gap junction internalization requires the clathrin-mediated endocytic machinery
AM Gumpert, JS Varco, SM Baker, M Piehl, MM Falk - FEBS letters, 2008 - Elsevier
AM Gumpert, JS Varco, SM Baker, M Piehl, MM Falk
FEBS letters, 2008•ElsevierDirect cell–cell communication mediated by plasma membrane-spanning gap junction (GJ)
channels is vital to all aspects of cellular life. Obviously, GJ intercellular communication
(GJIC) requires precise regulation, and it is known that controlled biosynthesis and
degradation, and channel opening and closing (gating) are exploited. We discovered that
cells internalize GJs in response to various stimuli. Here, we report that GJ internalization is
a clathrin-mediated endocytic process that utilizes the vesicle-coat protein clathrin, the …
channels is vital to all aspects of cellular life. Obviously, GJ intercellular communication
(GJIC) requires precise regulation, and it is known that controlled biosynthesis and
degradation, and channel opening and closing (gating) are exploited. We discovered that
cells internalize GJs in response to various stimuli. Here, we report that GJ internalization is
a clathrin-mediated endocytic process that utilizes the vesicle-coat protein clathrin, the …
Direct cell–cell communication mediated by plasma membrane-spanning gap junction (GJ) channels is vital to all aspects of cellular life. Obviously, GJ intercellular communication (GJIC) requires precise regulation, and it is known that controlled biosynthesis and degradation, and channel opening and closing (gating) are exploited. We discovered that cells internalize GJs in response to various stimuli. Here, we report that GJ internalization is a clathrin-mediated endocytic process that utilizes the vesicle-coat protein clathrin, the adaptor proteins adaptor protein complex 2 and disabled 2, and the GTPase dynamin. To our knowledge, we are first to report that the endocytic clathrin machinery can internalize double-membrane vesicles into cells.
Elsevier