Abstract
To produce physiological functions, many tissues require their cells to be connected by gap junctions. Such diffusive coupling is important in establishing a cytoplasmic syncytium through which cells can exchange signals, substrates and metabolites. Often the benefits of connectivity become apparent solely at the multicellular level, leading to the notion that cells work for a common good rather than exclusively in their self-interest. In some tumors, gap junctional connectivity between cancer cells is reduced or absent, but there are notable cases where it persists or re-emerges in late-stage disease. Diffusive coupling will blur certain phenotypic differences between cells, which may seem to go against the establishment of population heterogeneity, a central pillar of cancer that stems from genetic instability. Here, building on our previous measurements of gap junctional coupling between cancer cells, we use a computational model to simulate the role of connexin-assembled channels in exchanging lactate and bicarbonate ions down their diffusion gradients. Based on the results of these simulations, we propose that an overriding benefit of gap junctional connectivity may relate to lactate/bicarbonate exchange, which would support an elevated metabolic rate in hypoxic tumors. In this example of barter, hypoxic cancer cells provide normoxic neighbors with lactate for mitochondrial oxidation; in exchange, bicarbonate ions, which are more plentiful in normoxic cells, are supplied to hypoxic neighbors to neutralize the H+ ions co-produced glycolytically. Both cells benefit, and so does the tumor.
Highlights
Trading within Biological SystemsBarter is the exchange of goods or services without the involvement of money, under the premise that the two sides coincidentally want each other’s offer
To produce physiological functions, many tissues require their cells to be connected by gap junctions
Their heterogeneity arises from genetic differences among sub-populations of cancer cells, and from variation in micro-environmental factors, such as oxygen supply which depends on the distance from the nearest capillary [3]
Summary
Barter is the exchange of goods or services without the involvement of money, under the premise that the two sides coincidentally want each other’s offer. An analogy can be drawn to an advanced economy, where metabolism generates ATP (‘money’) to power (‘pay’) various specialized biological processes (‘crafts’), so that these collectively support survival and proliferation (‘wealth’). Such a system functions properly because it is in the interest of all constituents that the cell thrives. Tumors have the potential to benefit from the division of labor because they are not homogenous tissues Their heterogeneity arises from genetic differences among sub-populations of cancer cells, and from variation in micro-environmental factors, such as oxygen supply which depends on the distance from the nearest capillary [3]. The instantaneous and reciprocal exchange of assets between cancer cells is achievable through inter-cellular conduits called gap junctions, first described in the 1960s [7]
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