Abstract
This paper considers two models of ceramide-transfer protein (CERT)-mediated ceramide transfer at the trans-Golgi network proposed in the literature, short distance shuttle and neck swinging, and seeks structural (parameter-free) features of the two models, which rely exclusively on the peculiar interaction network and not on specific parameter values. In particular, it is shown that both models can be seen as flow-inducing systems, where the flows between pairs of species are tuned by the concentrations of other species, and suitable external inputs can structurally regulate ceramide transfer. In the short distance shuttle model, the amount of transferred ceramide is structurally tuned by active protein kinase D (PKD), both directly and indirectly, in a coherent feed-forward loop motif. In the neck-swinging model, the amount of transferred ceramide is structurally tuned by active PI4KIIIβ, while active PKD has an ambivalent effect, due to the presence of an incoherent feed-forward loop motif that directly inhibits ceramide transfer and indirectly promotes it; the structural role of active PKD is to favour CERT mobility in the cytosol. It is also shown that the influences among key variables often have structurally determined steady-state signs, which can help falsify the models against experimental traces.
Highlights
Located next to the endoplasmatic reticulum (ER) and close to the cell nucleus, the Golgi apparatus [1,2] has a fundamental role in the life of most eukaryotic cells [3,4,5]: proteins and2018 The Authors
This paper studies the mathematical description first proposed [27] for these two models, which captures the interplay of protein kinase D (PKD), PI4KIIIβ and ceramide-transfer protein (CERT), the key proteins involved in the mechanism, on an average cellular level in 3 mammalian cells
In a flow-inducing network, mass flows involve exclusively variables that belong to the same subsystem; some mass flows among the variables within a subsystem are spontaneous (those from x2 to x1 and from x4 to x3 in both systems (2.1) and (2.2); that from x6 to x5 in the short distance shuttle system (2.1); those from x5 to x6 and from x6 to x5 in the neck-swinging system (2.2)); other mass flows among the variables within a subsystem are tuned by the value of variables that belong to other subsystems, which creates coupling effects among the subsystems
Summary
Located next to the endoplasmatic reticulum (ER) and close to the cell nucleus, the Golgi apparatus [1,2] has a fundamental role in the life of most eukaryotic cells [3,4,5]: proteins and. 5: 180494 (a) TGN MCS CERT ER (b). ER phase 1 ceramide phase 2 PI4P. PH domain SR domain FFAT motif phase 4
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