ALS_SBML_draft_v1-003.xml

<?xml version='1.0' encoding='UTF-8' standalone='no'?>
<sbml xmlns="http://www.sbml.org/sbml/level2/version4" level="2" metaid="c4124f17-ac90-4ca4-be1d-2fe34c562a24" version="4">
  <model name="JPLeRouzic2018 - Interaction between astrocytes and neurons in Amyotrophic lateral sclerosis (ALS)" id="MODEL_to_be_done">
    <notes>
      <body xmlns="http://www.w3.org/1999/xhtml">
        <div class="dc:title">JPLeRouzic2018 - Interactions between astrocytes
                    and neurons in Amyotrophic lateral sclerosis (ALS)</div>
            <div class="dc:description">Encoded non-curated model. Issues:      <br>To be done</br>
                </div>
            <div class="dc:bibliographicCitation">      <p>This model is described in the article:</p>
                <div class="bibo:title">        <a href="http://identifiers.org/pubmed/20552235" title="Access to this publication">Motor neuron-immune interactions: The vicious circle of ALS.</a>
                    </div>
                <div class="bibo:authorList">Barbeito AG, Mesci P, Boillée S.</div>
                <div class="bibo:Journal">J Neural Transm (Vienna). 2010 Aug;117(8):981-1000.</div>
                <p>Abstract:</p>
                <div class="bibo:abstract">        <p>Because microglial cells, the resident macrophages of the CNS, react to any lesion of the nervous system,          <br/>
              they have for long been regarded as potential players in the pathogenesis of several neurodegenerative disorders including amyotrophic lateral sclerosis,          <br/>
              the most common motor neuron disease in the adult.          <br/>
              In recent years, this microglial reaction to motor neuron injury, in particular, and the innate immune response, in general,          <br/>
              has been implicated in the progression of the disease, in mouse models of ALS.          <br/>
              The mechanisms by which microglial cells influence motor neuron death in ALS are still largely unknown.          <br/>
              Microglial activation increases over the course of the disease and is associated with an alteration in the production of toxic factors and also          <br/>
              neurotrophic factors.          <br/>
              Adding to the microglial/macrophage response to motor neuron degeneration, the adaptive immune system can likewise influence the disease process.          <br/>
              Exploring these motor neuron-immune interactions could lead to a better understanding in the physiopathology of ALS to find          <br/>
              new pathways to slow down motor neuron degeneration.          </p>
                    </div>
                <div class="dc:publisher">        <p>This model will be hosted on          <a href="http://www.ebi.ac.uk/biomodels/">BioModels Database</a>
              and identified by:          <a href="http://identifiers.org/biomodels.db/MODELtobedone">MODEL-to-be-done</a>
              .          </p>
                    <p>To cite BioModels Database, please use:          <a href="http://identifiers.org/pubmed/20587024" title="Latest BioModels Database publication">BioModels Database:
                                An enhanced, curated and annotated resource for published
                                quantitative kinetic models</a>
              .          </p>
                    </div>
                <div class="dc:license">        <p>To the extent possible under law, all copyright and related or
                            neighbouring rights to this encoded model have been dedicated to
                            the public domain worldwide. Please refer to          <a href="http://creativecommons.org/publicdomain/zero/1.0/" title="Access to: CC0 1.0 Universal (CC0 1.0), Public Domain Dedication">CC0
                                Public Domain Dedication</a>
              for more information.          </p>
                    </div>
                </div>
            </body>
      
    </notes>
    <listOfUnitDefinitions>
      <unitDefinition name="volume" id="volume" metaid="_38ba8c9f-937c-475c-813f-aa6ade0b1845">
        <listOfUnits>
          <unit scale="-3" metaid="a9cd72a6-2891-4f4a-99ce-1de794afd9c0" kind="litre" multiplier="1" exponent="1"/>
        </listOfUnits>
      </unitDefinition>
      <unitDefinition name="time" id="time" metaid="_79bb7d94-2052-4d38-801e-f2de2f2cf67a">
        <listOfUnits>
          <unit scale="0" metaid="d517ee51-ff20-4f36-89a5-72cc7414e9c1" kind="second" exponent="1"/>
        </listOfUnits>
      </unitDefinition>
      <unitDefinition name="substance" id="substance" metaid="_45963f6f-46e8-415f-83b9-f4ff8374d6fb">
        <listOfUnits>
          <unit scale="0" metaid="_80760473-3d2d-49a5-853b-c0db9933eb5d" kind="dimensionless" multiplier="1" exponent="1"/>
        </listOfUnits>
      </unitDefinition>
    </listOfUnitDefinitions>
    <listOfCompartments>
      <compartment constant="true" size="1" metaid="COPASI1" name="CentralNervousSystem" id="CentralNervousSystem" spatialDimensions="3"/>
      <compartment constant="true" size="0.2" metaid="_9900a077-72fa-46e3-9b6c-81856a5bdb48" name="Extracellular space" id="Extracellular_space" spatialDimensions="3"/>
      <compartment constant="true" size="0.0055" metaid="_15807251-6568-48ac-8f23-b56570441672" name="Capillaries" id="Capillaries" spatialDimensions="3"/>
      <compartment constant="true" size="0.0237" metaid="dd33450c-6095-4d8e-9482-3ad351480412" name="Veins" id="Veins" spatialDimensions="3"/>
    </listOfCompartments>
    <listOfSpecies>
<!--
      <species boundaryCondition="true" constant="false" metaid="COPASI211" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="PreSynapticNeurons" id="PreSynapticNeurons" initialConcentration="999999">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                <pre>Pre-Synaptic Neurons</pre>
                    </body>
        </notes>
</species>

      <species boundaryCondition="true" constant="false" metaid="COPASI212" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="Exocytosis" id="Exocytosis" initialConcentration="999999">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                <pre>Exocytosis</pre>
                    </body>
        </notes>
</species>

      <species boundaryCondition="true" constant="false" metaid="COPASI213" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="BrokenMotorUnit" id="BrokenMotorUnit" initialConcentration="1">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                A motor unit is made up of a motor neuron and the skeletal muscle fibers innervated by that motor neuron's axonal terminals.<br/> 
		Groups of motor units often work together to coordinate the contractions of a single muscle.<br/> 
		All of the motor units within a muscle are considered a motor pool.                     </body>
        </notes>
</species>

      <species boundaryCondition="true" constant="false" metaid="COPASI214" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="LivingUpperMotoNeurons" id="LivingUpperMotoNeurons" initialConcentration="999999">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                Surviving Upper neurons<br/>
		Upper motor neurons are found in the brain and carry motor information down the spinal cord to activate the lower motor neurons,
                    </body>
        </notes>
</species>

      <species boundaryCondition="true" constant="false" metaid="COPASI311" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="DeadUpperMotoNeurons" id="DeadUpperMotoNeurons" initialConcentration="1">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                Dead Upper neurons<br/>
		Upper motor neurons are found in the brain and carry motor information down the spinal cord to activate the lower motor neurons,
                    </body>
        </notes>
</species>
-->

      <species boundaryCondition="true" constant="false" metaid="COPASI215" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="LivingLowerMotoNeurons" id="LivingLowerMotoNeurons" initialConcentration="999999">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                Surviving lower motor neurons<br/>
		The efferent fiber carries nerve impulses away from the  the spinal cord, and toward the muscles.<br/> 
                    </body>
        </notes>
</species>

      <species boundaryCondition="true" constant="false" metaid="COPASI312" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="DeadLowerMotoNeurons" id="DeadLowerMotoNeurons" initialConcentration="1">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                Dead lower motor neurons<br/>
		The efferent fiber carries nerve impulses away from the  the spinal cord, and toward the muscles.<br/> 
                    </body>
        </notes>
</species>

      <species boundaryCondition="true" constant="false" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="EAAT2Transporters" id="EAAT2Transporters" initialConcentration="200000">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                * In a healthy situation the presynaptic neuron releases glutamate (Glu), which binds to<br/> 
		glutamate receptors (GluRs) on the postsynaptic motor neuron, resulting in excitation through<br/>
		calcium influx.<br/>
		Extracellular glutamate is quickly cleared from the synaptic cleft by astrocytes through EAAT2 transporters. <br/>
                * In an ALS situation decreased expression of astrocytic glutamate<br/>
		transporters EAAT2 could lead to prolonged glutamate excitation of motor neurons and<br/>
		participate in their degeneration (excitotoxic hypothesis)<br/>
                    </body>
        </notes>
</species>

<!--
      <species boundaryCondition="true" constant="false" metaid="COPASI411" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="Non_Inflammatory_Astroglia" id="Non_Inflammatory_Astroglia" initialConcentration="200">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                <pre>Quiescent astroglia</pre>
                    </body>
        </notes>
</species>
-->

      <species boundaryCondition="true" constant="false" metaid="COPASI511" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="Pro_Inflammatory_Astroglia" id="Pro_Inflammatory_Astroglia" initialConcentration="50">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                <pre>Proliferating astroglia</pre>
                    </body>
        </notes>
</species>

      <species boundaryCondition="true" constant="false" metaid="COPASI611" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="Anti_Inflammatory_Microglia" id="Anti_Inflammatory_Microglia" initialConcentration="200">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                <pre>Normal microglia</pre>
                    </body>
        </notes>
</species>

      <species boundaryCondition="true" constant="false" metaid="COPASI7112" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="Pro_Inflammatory_Microglia" id="Pro_Inflammatory_Microglia" initialConcentration="50">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                <pre>Reactive microglia</pre>
                    </body>
        </notes>
</species>
<!--
      <species boundaryCondition="true" constant="false" metaid="COPASI2511" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="Monocyte" id="Monocyte" initialConcentration="1">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
               			They are the largest type of leukocyte and can differentiate into macrophages and myeloid lineage dendritic cells.<br/>
				Monocytes can differentiate into dendritic cells by adding the cytokines granulocyte macrophage colony-stimulating factor (GM-CSF) and interleukin 4.
                    </body>
        </notes>
</species>

      <species boundaryCondition="true" constant="false" metaid="COPASI2211" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="B_Cell" id="B_Cell" initialConcentration="1">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                B cells, also known as B lymphocytes, are a type of white blood cell.<br/>
			* They secrete antibodies.<br/> 
			* B cells are also classified as professional antigen-presenting cells (APCs)).<br/> 
			* B cells secrete cytokines.<br/>
                    </body>
        </notes>
</species>

      <species boundaryCondition="true" constant="false" metaid="COPASI2212" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="T_Cell" id="T_Cell" initialConcentration="1">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
		T cell, or T lymphocyte, is a type of lymphocyte that plays a central role in cell-mediated immunity.<br/> 
		They mature in the thymus which "selects for" T cells capable of interacting with MHC, and kill the "non-self" cells.<br/>
		On can further categorize T cells in:<br/>
		    * Cytotoxic T cells (CD8+ T cells)<br/>
		    * Helper T cells (CD4+ T cells)<br/>
		    * Regulatory T cells<br/>
		    * Natural Killer T cells
                    </body>
        </notes>
</species>

      <species boundaryCondition="true" constant="false" metaid="COPASI2213" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="DentriticCell" id="DentriticCell" initialConcentration="1">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                Dendritic cells are antigen-presenting cells. They process ("eat") material found in the ECM and present it to the T cells.<br/> 
		They act as messengers between the innate and the adaptive immune systems. 
                    </body>
        </notes>
</species>
-->

      <species boundaryCondition="true" constant="false" metaid="COPASI2311" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="Cytokines" id="Cytokines" initialConcentration="1">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                <pre>Cytokines</pre>
                    </body>
        </notes>
</species>

      <species boundaryCondition="true" constant="false" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="CD4_T_Lymphocytes" id="CD4_T_Lymphocytes" initialConcentration="0">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                <pre>CD4 T_Lymphocytes generated mostly because of dying neurons.</pre>
                    </body>
          
        </notes>
</species>
      <species boundaryCondition="true" constant="false" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="CD8_T_Lymphocytes" id="CD8_T_Lymphocytes" initialConcentration="0">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                <pre>CD8 T_Lymphocytes generated mostly because of dying neurons.</pre>
                    </body>
          
        </notes>
</species>
      <species boundaryCondition="true" constant="false" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="M_CSF_TxcFctr_Astroglia" id="M_CSF_TxcFctr_Astroglia" initialConcentration="0">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                <pre>Toxic Factors generated by Astroglia, PGE2 and ROS.</pre>
                    </body>
          
        </notes>
</species>
      <species boundaryCondition="true" constant="false" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="MCP_1_TxcFctr_Astroglia" id="MCP_1_TxcFctr_Astroglia" initialConcentration="0">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                <pre>Toxic Factors generated by Astroglia, PGE2 and ROS.</pre>
                    </body>
          
        </notes>
</species>
      <species boundaryCondition="true" constant="false" metaid="COPASI711" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="Other_TxcFctrs_Astroglia" id="Other_TxcFctrs_Astroglia" initialConcentration="0">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                <pre>Toxic Factors generated by Astroglia, PGE2 and ROS.</pre>
                    </body>
          
        </notes>
</species>
      <species boundaryCondition="true" constant="false" hasOnlySubstanceUnits="false" compartment="CentralNervousSystem" name="ToxicFactors_Microglia" id="ToxicFactors_Microglia" initialConcentration="0">
        <notes>
          <body xmlns="http://www.w3.org/1999/xhtml">
                <pre>Toxic Factors generated by Microglia, PGE2, IL-x, TNF, ROS and NO.</pre>
                    </body>
          
        </notes>
</species>

<!-- Metabolism -->


    </listOfSpecies>
    <listOfParameters>
      <parameter name="prmDeadNeurons" constant="true" id="prmDeadNeurons" value="1">
        <notes>
          Dead neurons
        </notes>
</parameter>
      <parameter name="prmLivingNeurons" constant="true" id="prmLivingNeurons" value="0.5">
        <notes>
          Living neurons
        </notes>
</parameter>
      <parameter name="prmCD8TLymphToDeadNeuron" constant="true" id="prmCD8TLymphToDeadNeuron" value="0.08">
        <notes>
          Pro Inflammatory Microglia
        </notes>
</parameter>
      <parameter name="prmAntiInflamMicroglia" constant="true" id="prmAntiInflamMicroglia" value="1">
        <notes>
          Anti Inflammatory Microglia
        </notes>
</parameter>
      <parameter name="prmProInflamMicroglia" constant="true" id="prmProInflamMicroglia" value="0">
        <notes>
          Pro Inflammatory Microglia
        </notes>
</parameter>
      <parameter name="prmCD4TLymphToDeadNeuron" constant="true" id="prmCD4TLymphToDeadNeuron" value="1">
        <notes>
          Pro Inflammatory Astroglia
        </notes>
</parameter>
      <parameter name="prmNonInflamAstroglia" constant="true" id="prmNonInflamAstroglia" value="0.5">
        <notes>
          Quiescent astroglia
        </notes>
</parameter>
      <parameter name="prmTxcAstroglia" constant="true" id="prmTxcAstroglia" value="16">
        <notes>
          Toxic output from astroglia
        </notes>
</parameter>
      <parameter name="prmTxcMicroglia" constant="true" id="prmTxcMicroglia" value="1">
        <notes>
          Toxic output from microglia
        </notes>
</parameter>


      <parameter name="prmCD4Lymphocytes" constant="true" id="prmCD4Lymphocytes" value="0.5">
        <notes>
          Controls the production of CD4 T_Lymphocytes in a dependency with the number of dying neurons
        </notes>
</parameter>
      <parameter name="prmCD8Lymphocytes" constant="true" id="prmCD8Lymphocytes" value="0.5">
        <notes>
         Controls the production of CD8 T_Lymphocytes in a dependency with the number of dying neurons
        </notes>
</parameter>


      <parameter name="Nb of neurons" id="NbOfNeurons" value="1000000">
        <notes>
          
        </notes>
</parameter>
      <parameter name="Nb of microglia" id="NbOfMicroglia" value="100000">
        <notes>
          
        </notes>
</parameter>
      <parameter name="Nb of astrocytes" id="NbOfAstrocytes" value="200000">
        <notes>
          
        </notes>
</parameter>

<!-- Metabolism -->


    </listOfParameters>
    <listOfRules>
      <rateRule variable="DeadLowerMotoNeurons" metaid="db19c551-9a1b-4c4f-a22b-5cb828b14a48">
        <math xmlns="http://www.w3.org/1998/Math/MathML">   
<!--     
2018/9/14
          <apply>
            <times/>
            <ci> NbOfNeurons </ci>
            <apply>
              <divide/>
              <apply>
                <plus/>
                <apply>
                  <times/>
                  <ci> prmCD4TLymphToDeadNeuron </ci>
                  <ci> Pro_Inflammatory_Astroglia </ci>
                </apply>
                <apply>
                  <times/>
                  <ci> prmCD8TLymphToDeadNeuron </ci>
                  <ci> Pro_Inflammatory_Microglia </ci>
                </apply>
              </apply>
              <apply>
                <plus/>
                <ci> NbOfAstrocytes </ci>
                <ci> NbOfMicroglia </ci>
              </apply>
            </apply>
          </apply>
-->
          <apply>
            <times/>
            <ci> NbOfNeurons </ci>
            <apply>
              <divide/>
              <apply>
                <plus/>
                <apply>
                  <times/>
                  <ci> prmCD4TLymphToDeadNeuron </ci>
                  <ci> CD4_T_Lymphocytes </ci>
                </apply>
                <apply>
                  <times/>
                  <ci> prmCD8TLymphToDeadNeuron </ci>
                  <ci> CD8_T_Lymphocytes </ci>
                </apply>
             </apply>
              <apply>
                <plus/>
                <ci> NbOfAstrocytes </ci>
                <ci> NbOfMicroglia </ci>
              </apply>
            </apply>
          </apply>
        </math>
      </rateRule>


      <rateRule variable="LivingLowerMotoNeurons" metaid="c7b7bcea-1097-42ef-8111-4023cebc0e75">
        <math xmlns="http://www.w3.org/1998/Math/MathML">        
          <apply>
            <minus/>
            <ci> DeadLowerMotoNeurons </ci>
          </apply>
        </math>
      </rateRule>


      <rateRule variable="EAAT2Transporters" >
        <math xmlns="http://www.w3.org/1998/Math/MathML">        
          <apply>
            <minus/>
            <apply>
              <times/>
              <ci> prmProInflamMicroglia </ci>
              <ci> Pro_Inflammatory_Microglia </ci>
            </apply>
            <apply>
              <times/>
              <ci> prmAntiInflamMicroglia </ci>
              <ci> Anti_Inflammatory_Microglia </ci>
            </apply>
          </apply>
        </math>
      </rateRule>


      <rateRule variable="Pro_Inflammatory_Astroglia" metaid="_788b482c-008b-4d79-95da-96efe85f6032">
        <math xmlns="http://www.w3.org/1998/Math/MathML">        
          <ci> DeadLowerMotoNeurons </ci>
        </math>
      </rateRule>


      <rateRule variable="Pro_Inflammatory_Microglia" metaid="_88860791-365a-4268-9a37-235173f8db38">
        <math xmlns="http://www.w3.org/1998/Math/MathML">        
          <apply>
            <plus/>
		<ci> M_CSF_TxcFctr_Astroglia </ci>
		<ci> MCP_1_TxcFctr_Astroglia </ci>
            	<ci> DeadLowerMotoNeurons </ci>
          </apply>
        </math>
      </rateRule>


      <rateRule variable="Anti_Inflammatory_Microglia" metaid="fbad149e-46be-407f-97b8-f2f451c5fb42">
        <math xmlns="http://www.w3.org/1998/Math/MathML">        
          <apply>
            <minus/>
		<ci> EAAT2Transporters </ci>
            	<ci> DeadLowerMotoNeurons </ci>
          </apply>
        </math>
      </rateRule>

      <rateRule variable="CD4_T_Lymphocytes">
        <math xmlns="http://www.w3.org/1998/Math/MathML">        
          <apply>
            <times/>
            <ci> prmCD4Lymphocytes </ci>
            <ci> Other_TxcFctrs_Astroglia </ci>
          </apply>
        </math>
      </rateRule>

      <rateRule variable="CD8_T_Lymphocytes">
        <math xmlns="http://www.w3.org/1998/Math/MathML">        
          <apply>
            <times/>
            <ci> prmCD8Lymphocytes </ci>
            <ci> Other_TxcFctrs_Astroglia </ci>
          </apply>
        </math>
      </rateRule>

      <rateRule variable="M_CSF_TxcFctr_Astroglia">
        <math xmlns="http://www.w3.org/1998/Math/MathML">        
          <apply>
            <times/>
            <ci> prmTxcAstroglia </ci>
            <apply>
              <divide/>
                <ci> Pro_Inflammatory_Astroglia </ci>
                <ci> NbOfAstrocytes </ci>
            </apply>
          </apply>
        </math>
      </rateRule>

      <rateRule variable="MCP_1_TxcFctr_Astroglia">
        <math xmlns="http://www.w3.org/1998/Math/MathML">        
          <apply>
            <times/>
            <ci> prmTxcAstroglia </ci>
            <apply>
              <divide/>
                <ci> Pro_Inflammatory_Astroglia </ci>
                <ci> NbOfAstrocytes </ci>
            </apply>
          </apply>
        </math>
      </rateRule>

      <rateRule variable="Other_TxcFctrs_Astroglia">
        <math xmlns="http://www.w3.org/1998/Math/MathML">        
          <apply>
            <times/>
            <ci> prmTxcAstroglia </ci>
            <apply>
              <divide/>
                <ci> Pro_Inflammatory_Astroglia </ci>
                <ci> NbOfAstrocytes </ci>
            </apply>
          </apply>
        </math>
      </rateRule>

      <rateRule variable="ToxicFactors_Microglia">
        <math xmlns="http://www.w3.org/1998/Math/MathML">        
          <apply>
            <times/>
            <ci> prmTxcMicroglia </ci>
            <apply>
              <divide/>
                <ci> Pro_Inflammatory_Microglia </ci>
                <ci> NbOfMicroglia </ci>
            </apply>
          </apply>
        </math>
      </rateRule>

      <rateRule variable="Cytokines">
        <math xmlns="http://www.w3.org/1998/Math/MathML">        
          <apply>
            <times/>
            <ci> prmTxcMicroglia </ci>
            <apply>
              <divide/>
                <ci> Pro_Inflammatory_Microglia </ci>
                <ci> NbOfMicroglia </ci>
            </apply>
          </apply>
        </math>
      </rateRule>



<!-- Part about metabolism -->     

    </listOfRules>
  </model>
</sbml>