Abstract
Reproduction is thought to come at a cost to longevity. Based on the assumption that increased energy expenditure during reproduction is associated with increased free-radical production by mitochondria, oxidative damage has been suggested to drive this trade-off. We examined the impact of reproduction on liver mitochondrial function by utilizing post-reproductive and non-reproductive house mice (Mus musculus) living under semi-natural conditions. The age-matched post-reproductive and non-reproductive groups were compared after the reproductive females returned to a non-reproductive state, so that both groups were in the same physiological state at the time the liver was collected. Despite increased oxidative damage (p = 0.05) and elevated CuZnSOD (p = 0.002) and catalase (p = 0.04) protein levels, reproduction had no negative impacts on the respiratory function of liver mitochondria. Specifically, in a post-reproductive, maintenance state the mitochondrial coupling (i.e., respiratory control ratio) of mouse livers show no negative impacts of reproduction. In fact, there was a trend (p = 0.059) to suggest increased maximal oxygen consumption by liver mitochondria during the ADP stimulated state (i.e., state 3) in post-reproduction. These findings suggest that oxidative damage may not impair mitochondrial respiratory function and question the role of mitochondria in the trade-off between reproduction and longevity. In addition, the findings highlight the importance of quantifying the respiratory function of mitochondria in addition to measuring oxidative damage.
Highlights
The notion that there is a tradeoff between reproductive investment and longevity is a central tenet of biology
We measured the respiratory function of the mitochondria by evaluating their respiratory control ratio (RCR), a measure of state 3 to state 4 respiration
RCR of liver mitochondria was similar in post-reproductive compared to non-reproductive females, there was a trend for higher RCR in post-reproductive mice (t17 = 1.80; p = 0.089; Fig 1A)
Summary
The notion that there is a tradeoff between reproductive investment and longevity is a central tenet of biology. Reproduction increases the demand for ATP produced by mitochondria, organelles that are responsible for the production of reactive oxygen species (ROS) that damage intracellular lipids, proteins, and DNA [2] This damage is thought to contribute to the decline in cell and tissue function that occurs with senescence (mitochondrial free radical theory of aging [2]). In this regard, it has been proposed that reproduction increases oxidative damage that may reduce the ability of cells to maintain function, which can negatively affect longevity [3,4,5]. Recent reviews found no consistent relationship between reproduction and oxidative damage [6, 7]
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