Aquaporin-0 (AQP0) is a tetrameric membrane protein and the most abundant membrane protein in the eye lens. Interestingly, there is little to no cellular turnover once mature lens fiber cells are formed, and hence, age-related modifications accumulate with time. While bottom-up mass spectrometry-based approaches can provide identification of post-translational modifications, they cannot provide information on how these modifications coexist in a single chain or complex. Native mass spectrometry, however, enables the transfer of the intact complex into the gas-phase allowing modifications to be identified at the tetramer level. Here, we present the use of native mass spectrometry and surface-induced dissociation to study the post-translational modifications of AQP0 isolated and purified from bovine eye lens, existing as multiple forms due to the different modification states naturally present.
Aquaporins (AQPs) are a family of transmembrane water channels expressed in all living organisms. AQPs facilitate osmotically driven water flux across biological membranes and, in some cases, the movement of small molecules (such as glycerol, urea, CO2, NH3, H2O2). Protein–protein interactions play essential roles in protein regulation and function. This review provides a comprehensive overview of the current knowledge of the AQP interactomes and addresses the molecular basis and functional significance of these protein–protein interactions in health and diseases. Targeting AQP interactomes may offer new therapeutic avenues as targeting individual AQPs remains challenging despite intense efforts.
Cataract and presbyopia are the leading cause of vision loss and impaired vision, respectively, worldwide. Changes in lens biochemistry and physiology with age are responsible for vision impairment, yet the specific molecular changes that underpin such changes are not entirely understood. In order to preserve transparency over decades of life, the lens establishes and maintains a microcirculation system (MCS) that, through spatially localized ion pumps, induces circulation of water and nutrients into (influx) and metabolites out of (outflow and efflux) the lens. Aquaporins (AQPs) are predicted to play important roles in the establishment and maintenance of local and global water flow throughout the lens. This review discusses the structure and function of lens AQPs and, importantly, their spatial localization that is likely key to proper water flow through the MCS. Moreover, age-related changes are detailed and their predicted effects on the MCS are discussed leading to an updated MCS model. Lastly, the potential therapeutic targeting of AQPs for prevention or treatment of cataract and presbyopia is discussed.
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