Abstract
Whether and how podocytes depend on mitochondria across their long post-mitotic lifespan is yet unclear. With limited cell numbers and broad kidney distribution, isolation of podocyte mitochondria typically requires first isolating podocytes themselves. Disassociation of podocytes from their basement membrane, however, recapitulates an injured state that may stress mitochondria. To address this, we crossed floxed hemagglutinin (HA) -mitochondria tagged (MITO-Tag) mice with those expressing Cre in either podocytes (NPHS2) or distal tubule and collecting duct (CDH16), thus allowing for rapid, kidney cell-specific, isolation of mitochondria via immunoprecipitation. Mitochondrial respiration in fresh isolates from young (4-7 mo) and aged (22-26 mo) mice of both sexes demonstrated several previously unreported significant differences between podocyte and tubule mitochondria. First, although podocytes contain fewer mitochondria than do tubule cells, mitochondria isolated from podocytes averaged twice the respiratory capacity of tubule mitochondria when normalized to mitochondrial content by citrate synthase (CS) levels. Second, age-related decline in respiration was detected only in podocyte mitochondria and only in aged male mice. Finally, disassociating podocytes for cell culture initiates functional decline in mitochondria as those from cultured primary podocytes have half the respiratory capacity, but twice the hydrogen peroxide production of podocyte mitochondria isolated directly from fresh kidneys. Thus, podocytes maintain sexually dimorphic mitochondria with greater oxidative phosphorylation capacity than mitochondria-dependent tubules per organelle. Previous studies may not have detected these differences due to reliance on podocyte cell culture conditions, which results in artifactual suppression of mitochondrial function.