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Theor Biol Med Model. 2005 Oct 19;2:43.

Modeling the signaling endosome hypothesis: why a drive to the nucleus is better than a (random) walk.



Howe CL1.


Author information


1

Departments of Neuroscience and Neurology, Mayo Clinic College of Medicine, Guggenheim 442-C, Rochester, MN 55905, USA. howe.charles@mayo.edu



Abstract



BACKGROUND:


Information transfer from the plasma membrane to the nucleus is a universal cell biological property. Such information is generally encoded in the form of post-translationally modified protein messengers. Textbook signaling models typically depend upon the diffusion of molecular signals from the site of initiation at the plasma membrane to the site of effector function within the nucleus. However, such models fail to consider several critical constraints placed upon diffusion by the cellular milieu, including the likelihood of signal termination by dephosphorylation. In contrast, signaling associated with retrogradely transported membrane-bounded organelles such as endosomes provides a dephosphorylation-resistant mechanism for the vectorial transmission of molecular signals. We explore the relative efficiencies of signal diffusion versus retrograde transport of signaling endosomes.


RESULTS:


Using large-scale Monte Carlo simulations of diffusing STAT-3 molecules coupled with probabilistic modeling of dephosphorylation kinetics we found that predicted theoretical measures of STAT-3 diffusion likely overestimate the effective range of this signal. Compared to the inherently nucleus-directed movement of retrogradely transported signaling endosomes, diffusion of STAT-3 becomes less efficient at information transfer in spatial domains greater than 200 nanometers from the plasma membrane.


CONCLUSION:


Our model suggests that cells might utilize two distinct information transmission paradigms: 1) fast local signaling via diffusion over spatial domains on the order of less than 200 nanometers; 2) long-distance signaling via information packets associated with the cytoskeletal transport apparatus. Our model supports previous observations suggesting that the signaling endosome hypothesis is a subset of a more general hypothesis that the most efficient mechanism for intracellular signaling-at-a-distance involves the association of signaling molecules with molecular motors that move along the cytoskeleton. Importantly, however, cytoskeletal association of membrane-bounded complexes containing ligand-occupied transmembrane receptors and downstream effector molecules provides the ability to regenerate signals at any point along the transmission path. We conclude that signaling endosomes provide unique information transmission properties relevant to all cell architectures, and we propose that the majority of relevant information transmitted from the plasma membrane to the nucleus will be found in association with organelles of endocytic origin.





PMID:
16236165
PMCID:
PMC1276819
DOI:
10.1186/1742-4682-2-43


[Indexed for MEDLINE]

Free PMC Article


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Images from this publication.See all images (9)Free text



Figure 1

Figure 1

Simplified diagram showing the activation of STAT-3 and Erk1/2 downstream from EGF binding to EGFR. In the general model of signal transduction, the cascading chain of phosphorylation events culminating in activation of transcription factors such as STAT-3 and Erk1/2 depends upon the diffusion of these molecules from the site of signal initiation at the plasma membrane to the site of transcriptional regulation within the nucleus.


Modeling the signaling endosome hypothesis: Why a drive to the nucleus is better than a (random) walk

Theor Biol Med Model. 2005;2:43-43.





Figure 2

Figure 2


A) Neurons throughout the nervous system send axonal projections over distances ranging from microns to meters. For large or anatomically specialized animals such as the giraffe or the whale, more than 5 meters may separate the neuron cell body from the distal axon terminal. B) During development, neurons establish trophic interactions with target tissues. As an organism develops, the strength and maintenance of these trophic interactions determine whether neurons survive or die. Soluble protein trophic factors released by the target tissue (1) bind to transmembrane receptors on the presynaptic axon terminal (2), inducing receptor activation and the induction of intracellular signaling cascades (3). These signals must travel from the site of initiation to the distant cell body (4) in order to enter the nucleus and elicit transcriptional changes that determine the survival of the cell. This long-distance information transfer is a universal theme in neurodevelopment.


Modeling the signaling endosome hypothesis: Why a drive to the nucleus is better than a (random) walk

Theor Biol Med Model. 2005;2:43-43.





Figure 3

Figure 3

The signaling endosome hypothesis of long-distance axonal signal transmission. Soluble protein trophic factors released by the target (1) bind to transmembrane receptors on the presynaptic axon terminal (2), inducing receptor activation and internalization via clathrin-coated membranes or other endocytic structures (3). These endocytic vesicles give rise to transport endosomes that bear the receptor and associated signaling molecules as well as molecular motors (shown in turquoise) (4) that utilize microtubules (shown in pink) within the axon to carry the endosome toward the cell body (5). Upon arrival at the neuron cell body the endosome-associated signals may either initiate additional local signals or may directly translocate (6) into the nucleus to elicit transcriptional changes (7).


Modeling the signaling endosome hypothesis: Why a drive to the nucleus is better than a (random) walk

Theor Biol Med Model. 2005;2:43-43.





Figure 4

Figure 4

Growth factor receptors are internalized into clathrin-coated vesicles (CCVs) following ligand binding and receptor activation (1–5). These CCVs are uncoated (6) and mature into early endosomes (EE) (7) that may serve as transport endosomes [48]. The concentration of growth factor in transport endosomes is high enough to guarantee effectively 100% receptor occupancy. Hence, if the endosome-associated receptor encounters a phosphatase, the phosphorylation signal is rapidly regenerated.


Modeling the signaling endosome hypothesis: Why a drive to the nucleus is better than a (random) walk

Theor Biol Med Model. 2005;2:43-43.





Figure 5

Figure 5

The Microtubular Highway. Evidence of the directionality of dynein-mediated retrograde transport.


Modeling the signaling endosome hypothesis: Why a drive to the nucleus is better than a (random) walk

Theor Biol Med Model. 2005;2:43-43.





Figure 6

Figure 6

Representative trajectories for 12 random walk simulations using only diffusion criteria (red and blue lines), compared to the movement of a signaling endosome within the same 500 millisecond time frame (green line). Parameters: 15 μm cell diameter, 5 μm nucleus diameter, 37°C, 500 msec, coefficient of diffusion as described in the text. Arrows along the plasma membrane surface denote the sites of signal initiation.


Modeling the signaling endosome hypothesis: Why a drive to the nucleus is better than a (random) walk

Theor Biol Med Model. 2005;2:43-43.





Figure 7

Figure 7

Representative trajectories for 22 random walk simulations using both diffusion and dephosphorylation criteria (red and blue lines), compared to the movement of a signaling endosome within the same 1 second time frame (green line). Parameters: 15 μm cell diameter, 5 μm nucleus diameter, 37°C, 1 sec, coefficient of diffusion and dephosphorylation probability as described in the text. Arrows along the plasma membrane surface denote the sites of signal initiation.


Modeling the signaling endosome hypothesis: Why a drive to the nucleus is better than a (random) walk

Theor Biol Med Model. 2005;2:43-43.





Figure 8

Figure 8

Endpoint analysis of 100 diffusion-only random walks and 100 diffusion plus dephosphorylation random walks. Black lines represent vectors calculated by the final random walk point for each simulation, compared to the distance covered by a retrogradely transported signaling endosome in the same amount of time (green lines). The blue line represents the averaged vector for 100 diffusion-only random walks, while the red line depicts the averaged vector for 100 diffusion plus dephosphorylation simulations.


Modeling the signaling endosome hypothesis: Why a drive to the nucleus is better than a (random) walk

Theor Biol Med Model. 2005;2:43-43.





Figure 9

Figure 9


A and B) Diffusion modeling incorporating dephosphorylation kinetics indicates substantial truncation of the root-mean-square (r.m.s.) displacement for STAT-3 diffusion (dashed red line compared to solid red line). This has the effect of reducing the crossing point at which signaling endosome transport (solid blue line) overcomes diffusion (ca. 2 μm for theoretical r.m.s. vs. transport reduced to ca. 200 nm for adjusted r.m.s. vs. transport). B shows same data as A at higher Y-axis magnification.


Modeling the signaling endosome hypothesis: Why a drive to the nucleus is better than a (random) walk

Theor Biol Med Model. 2005;2:43-43.









Publication types, MeSH terms, Substance



Publication types


  • Comparative Study

  • Research Support, U.S. Gov't, Non-P.H.S.

MeSH terms


  • Animals

  • Biological Transport, Active

  • Cell Membrane/metabolism

  • Cell Nucleus/metabolism*

  • Computer Simulation

  • Diffusion

  • Endosomes/metabolism*

  • Humans

  • Kinetics

  • Models, Biological*

  • Models, Statistical

  • Monte Carlo Method

  • Phosphorylation

  • STAT3 Transcription Factor/metabolism

  • Signal Transduction/physiology*

Substance


  • STAT3 Transcription Factor




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