Location: Borghans 1997 @ 35e36be0f4e5 / borghans_dupont_goldbeter_1997c.cellml.orig

Author:
Mark Hanna <cipscis@gmail.com>
Date:
2010-02-16 12:53:48+13:00
Desc:
Replaced missing metadata and rebuilt session files with OpenCell 0.7 RC1
Permanent Source URI:
https://models.physiomeproject.org/workspace/borghans_1997/rawfile/35e36be0f4e51bf264707283b962798bc5641a61/borghans_dupont_goldbeter_1997c.cellml.orig

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		<article>
			<articleinfo>
				<title>Complex intracellular calcium oscillations.  A theoretical exploration of possible mechanisms</title>
				<author>
					<firstname>Mark</firstname>
					<surname>Hanna</surname>
					<affiliation>
						<shortaffil>Bioengineering Institute, University of Auckland</shortaffil>
					</affiliation>
				</author>
			</articleinfo>
			<section id="sec_status">
				<title>Model Status</title>
				<para>Runs in PCEnv and COR.  Reproduces published output (figure 12)</para>
			</section>
			<sect1 id="sec_structure">
				<title>Model Structure</title>
				<para>ABSTRACT: Intracellular Ca2+ oscillations are commonly observed in a large number of cell types in response to stimulation by an extracellular agonist.  In most cell types the mechanism of regular spiking is well understood and models based on Ca2+-induced Ca2+ release (CICR) can account for many experimental observations.  However, cells do not always exhibit simple Ca2+ oscillations.  In response to given agonists, some cells show more complex behaviour in the form of bursting, i.e. trains of Ca2+ spikes separated by silent phases.  Here we develop several theoretical models, based on physiologically plausible assumptions, that could account for complex intracellular Ca2+ oscillations.  The models are all based on one- or two-pool models based on CICR.  We extend these models by (i) considering the inhibition of the Ca2+-release channel on a unique intracellular store at high cytosolic Ca2+ concentrations, (ii) taking into account the Ca2+-activated degradation of inositol 1,4,5-trisphosphate (IP3), or (iii) considering explicitly the evolution of the Ca2+ concentration in two different pools, one sensitive and the other one insensitive to IP3.  Besides simple periodic oscillations, these three models can all account for more complex oscillatory behaviour in the form of bursting.  Moreover, the model that takes the kinetics of IP3 into account shows chaotic behaviour.</para>
				<para>Complex intracellular calcium oscillations.  A theoretical exploration of possible mechanisms, Jose A.M. Borghans, Genevieve Dupont, Albert Goldbeter, 1997, <emphasis>Biophysical Chemistry</emphasis>, 66, 25-41. <ulink url="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=PubMed&amp;list_uids=17029867&amp;dopt=Abstract">PubMed ID: 17029867</ulink></para>
				<informalfigure float="0" id="fig_cell_diagram">
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								<title>cell diagram</title>
							</objectinfo>
							<imagedata fileref="borghans_1997c.png"/>
						</imageobject>
					</mediaobject>
					<caption>Schematic representation of the two-pool model for complex Ca2+ oscillations.</caption>
				</informalfigure>
			</sect1>
		</article>
	</documentation>

	<!-- Units -->
	<units name="min">
		<!-- time: minute -->
		<unit multiplier="60" units="second"/>
	</units>

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		<!-- per time: per minute -->
		<unit exponent="-1" units="min"/>
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		<!-- concentration: micromolar -->
		<unit prefix="micro" units="mole"/>
		<unit exponent="-1" units="litre"/>
	</units>

	<units name="per_uM4">
		<!-- "Fudge factor": micromolar^-4 -->
		<unit exponent="-4" units="uM"/>
	</units>

	<units name="uM_per_min">
		<!-- flux: micromolar per minute -->
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		<unit units="per_min"/>
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		<variable name="Z" public_interface="in" units="uM"/>

		<variable cmeta:id="V_2s" name="V_2s" public_interface="out" units="uM_per_min"/>

		<variable cmeta:id="V_M2s" initial_value="1.5" name="V_M2s" units="uM_per_min"/>
		<variable cmeta:id="K_2s" initial_value="0.0265" name="K_2s" units="uM"/>

		<math xmlns="http://www.w3.org/1998/Math/MathML" id="V_2s_maths">
			<apply id="V_2s_eq"><eq/>
				<ci>V_2s</ci>
				<apply><times/>
					<ci>V_M2s</ci>
					<apply><divide/>
						<apply><power/>
							<ci>Z</ci>
							<cn xmlns:cellml="http://www.cellml.org/cellml/1.0#" cellml:units="dimensionless">2</cn>
						</apply>
						<apply><plus/>
							<apply><power/>
								<ci>K_2s</ci>
								<cn xmlns:cellml="http://www.cellml.org/cellml/1.0#" cellml:units="dimensionless">2</cn>
							</apply>
							<apply><power/>
								<ci>Z</ci>
								<cn xmlns:cellml="http://www.cellml.org/cellml/1.0#" cellml:units="dimensionless">2</cn>
							</apply>
						</apply>
					</apply>
				</apply>
			</apply>
		</math>
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	<component cmeta:id="V_3s_component" name="V_3s">
		

		<variable name="X" public_interface="in" units="uM"/>

		<variable cmeta:id="V_3s" name="V_3s" public_interface="out" units="uM_per_min"/>

		<variable cmeta:id="V_M3s" initial_value="0.169" name="V_M3s" units="uM_per_min"/>
		<variable cmeta:id="K_3s" initial_value="0.1" name="K_3s" units="uM"/>
		<variable name="beta" public_interface="in" units="dimensionless"/>

		<math xmlns="http://www.w3.org/1998/Math/MathML" id="V_3s_maths">
			<apply id="V_3s_eq"><eq/>
				<ci>V_3s</ci>
				<apply><times/>
					<ci>beta</ci>
					<ci>V_M3s</ci>
					<apply><divide/>
						<apply><power/>
							<ci>X</ci>
							<cn xmlns:cellml="http://www.cellml.org/cellml/1.0#" cellml:units="dimensionless">2</cn>
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							<apply><power/>
								<ci>K_3s</ci>
								<cn xmlns:cellml="http://www.cellml.org/cellml/1.0#" cellml:units="dimensionless">2</cn>
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							<apply><power/>
								<ci>X</ci>
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	<group>
		<relationship_ref relationship="encapsulation"/>
		<component_ref component="Ca">
			<component_ref component="Ca_flux">
				<component_ref component="V_in"/>
				<component_ref component="V_2i"/>
				<component_ref component="V_3i"/>
				<component_ref component="V_2s"/>
				<component_ref component="V_3s"/>
			</component_ref>
		</component_ref>
	</group>

	<!-- connections -->
	<connection>
		<map_components component_1="environment" component_2="Ca"/>
		<map_variables variable_1="time" variable_2="time"/>
	</connection>

	<connection>
		<map_components component_1="Ca" component_2="Ca_flux"/>
		<map_variables variable_1="time" variable_2="time"/>
		<map_variables variable_1="V_in" variable_2="V_in"/>
		<map_variables variable_1="V_2i" variable_2="V_2i"/>
		<map_variables variable_1="V_3i" variable_2="V_3i"/>
		<map_variables variable_1="V_2s" variable_2="V_2s"/>
		<map_variables variable_1="V_3s" variable_2="V_3s"/>
		<map_variables variable_1="Z" variable_2="Z"/>
		<map_variables variable_1="Y" variable_2="Y"/>
		<map_variables variable_1="X" variable_2="X"/>
	</connection>

	<connection>
		<map_components component_1="Ca_flux" component_2="V_in"/>
		<map_variables variable_1="beta" variable_2="beta"/>
		<map_variables variable_1="V_in" variable_2="V_in"/>
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	<connection>
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		<map_variables variable_1="Z" variable_2="Z"/>
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	<connection>
		<map_components component_1="Ca_flux" component_2="V_3i"/>
		<map_variables variable_1="Z" variable_2="Z"/>
		<map_variables variable_1="Y" variable_2="Y"/>
		<map_variables variable_1="V_3i" variable_2="V_3i"/>
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	<connection>
		<map_components component_1="Ca_flux" component_2="V_2s"/>
		<map_variables variable_1="Z" variable_2="Z"/>
		<map_variables variable_1="V_2s" variable_2="V_2s"/>
	</connection>

	<connection>
		<map_components component_1="Ca_flux" component_2="V_3s"/>
		<map_variables variable_1="X" variable_2="X"/>
		<map_variables variable_1="V_3s" variable_2="V_3s"/>
		<map_variables variable_1="beta" variable_2="beta"/>
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