Adaptive Immunity

Adaptive Immunity preview image

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170905_jeff_k_headshot_office Jeff Klemens (Author)

Tags

antibodies 

Tagged by Jeff Klemens over 6 years ago

b cells 

Tagged by Jeff Klemens over 6 years ago

immune system 

Tagged by Jeff Klemens over 6 years ago

measles 

Tagged by Jeff Klemens over 6 years ago

vaccine 

Tagged by Jeff Klemens over 6 years ago

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globals [death-rate reg-repro antibody-movement infected active-color]
     ; death-rate = chance of the turtle dying
     ; antibody-movement = how many spaces the antibody has moved
     ; reg-repro = the chance a lymphocyte will reproduce when it is not active or a memory cell
     ; infected = records whether antigens have been inputted
     ; active-color = the color of the lymphocyte that responds to the antigen
breed [lymphocytes lymphocyte]  ; creating a set of lymphocytes
breed [antigens antigen]        ; creating a set of antigens
breed [antibodies antibody]     ; creating a set of antibodies
breed [measles measle]          ; creating special measles antigen
breed [vaccines vaccine]        ; creating special vaccine antigen
lymphocytes-own [active active-time reproduction-rate memory]
     ; active = whether the cell is active ( 0 is no ; 1 is yes )
     ; active-time = how much time left the cell has to be active
     ; reproduction-rate = how fast the cell reproduces
     ; memory = records whether the lymphocyte is a memory cell (0 is no ; 1 is yes)
antibodies-own [energy]
     ; energy = how many ticks the antibody has left to live
measles-own [measles-duration]
vaccines-own [vaccine-duration]
     ; vaccine-duration = for how many ticks will the vaccines persist in the system

to setup
  clear-all
  clear-output
  ask patches [set pcolor white]
  set infected 0      ; at setup, the system is not infected with any antigens
  set death-rate 15   ; values fit to give best response, no inherent meaning to these rates
  set reg-repro 15
  set active-color one-of base-colors        ;set active color to a random lymphocyte color
  set-default-shape lymphocytes "circle"     ; lymphocytes are circles
  set-default-shape antigens "monster"       ; antigens are monsters
  set-default-shape measles "monster"        ; measles are monsters, big red ones
  set-default-shape vaccines "monster"       ; vaccines are greyed-out monsters
  set-default-shape antibodies "Y"           ; antibodies are Y-shaped
  create-lymphocytes 250  ; create the lymphocytes, then initialize their variables
  [
    set color one-of base-colors
    set active 0 ; all lymphocytes are initially inactive
    set active-time -1
    set reproduction-rate reg-repro ; all lymphocytes are initially inactive, so reproduce at regular rate
    set size 1.5  ; easier to see
    set label-color blue - 2
    setxy random-xcor random-ycor
    set memory 0
  ]
  reset-ticks
end 

to go
  if not any? turtles [ stop ]
  replace-extinct
  ask antigens[
    move
    antigen-reproduce
  ]
  ask lymphocytes [
    bind
    activated
    move
    reproduce
    lymph-death
  ]
  ask antibodies [
    antibody-move
    set energy energy - 1
    antibody-death
  ]
  measles-death
  vaccine-death
  antigen-extinct
  tick
end 

to replace-extinct           ; this is a "rescue effect", if any lymphocyte types (colors) go extinct we add one more to the population
  let counter 5
  while [counter < 140]      ; check all the colors
  [
    if count lymphocytes with [color = counter] = 0
  [
      create-lymphocytes 1  ; create the replacement lymphocyte, then initialize its variables
      [
        set color counter
        set active-time -1
        set active 0
        set reproduction-rate reg-repro
        set size 1.5
        set label-color blue - 2
        setxy random-xcor random-ycor
        ask n-of 1 lymphocytes [ die ]   ; kill a random lympohcyte to make up for the replacement
      ]
  ]
  set counter counter + 10
]
end 

to move  ; antigen and lymphocyte procedure
  rt random 50
  lt random 50
  fd 1
end 

to antigen-reproduce
   if random 100 < 20 and color != grey   ;; and statement keeps grey "vaccine antigens" from reproducing
    [
      hatch 1 [ rt random 360 fd 1]
    ]
end 

to bind                                          ; active-color lymphocytes are activated by the antigen
 if color = active-color[
   if (one-of antigens in-radius 1 != nobody) or (one-of vaccines in-radius 1 != nobody)
   [
     set active 1
     set active-time 10   ;; length of typical cell lifespan if death rate is 10
   ]
  ]
end 

to activated
  if active-time = 0                                 ; kills activated after time is up
    [
       die
      ]

  if active = 1
  [
    set reproduction-rate (reproduction-multiplier-when-active * reg-repro) ; start rapid reproduction
    set size 2               ; increase size
    set shape "bold-circle"  ; outline circle
    hatch-antibodies 2       ; create antibodies
    [
      set color black
      rt random-float 360 fd 1  ; randomly pick a direction and move forward
      if antibody-effectiveness = "high"
      [
          set energy 8
      ]

      if antibody-effectiveness = "low"
      [
        set energy 4 ; for antibodies, energy tracks how many ticks the antibodies have left to live
      ]
    ]
   set active-time active-time - 1    ;; counts back down to inactivity
  ]
end 

to reproduce  ; determine if the lymphocyte reproduces

 if random 100 < reproduction-rate
  [ ifelse memory = 1
    [
      hatch 1 [
        set shape "M-circle"
        rt random-float 360 fd 1]
    ]
    [
       ifelse active = 1 ; if active, produce both a memory cell and an active cell ; else, produce regular cell
        [
                  hatch-lymphocytes 1 [ set shape "M-circle"
                  set color active-color
                  set active 0
                  set reproduction-rate 2
                  set size 2.5  ; easier to see
                  set label-color blue - 2
                  set memory 1
                  rt random-float 360 fd 1 ]

                  hatch 1 [ rt random-float 360 fd 1]
        ]
        [
            ifelse count lymphocytes < 235
               [
                        hatch 2 [ rt random-float 360 fd 1]
               ]
                [
                        hatch 1 [ rt random-float 360 fd 1]
                 ]
        ]
    ]
  ]
end 

to lymph-death  ; determine if the lymphocyte dies
  if memory = 0 and random 100 < death-rate
      [
        die
      ]
  if memory = 1 and random 100 < 2
  [
    die
  ]
end 

to antibody-move  ; the speed (distance moved each time step) ends up being a measure of potency of each activated cell
  set antibody-movement 0
  if antibody-effectiveness = "high"
  [
     while [antibody-movement < 10]
     [fd 1
     kill-antigen  ; check to see if it is on the same spot as an antigen and if so, kill it
     set antibody-movement antibody-movement + 1
     ]
  ]

  if antibody-effectiveness = "low"
  [
     while [antibody-movement < 5]
     [fd 1
     kill-antigen
     set antibody-movement antibody-movement + 1
     ]
  ]
end 

to antibody-death
  if energy < 1
  [ die ]
end 

to kill-antigen
  let prey one-of antigens-here
  if prey != nobody
  [ask prey[die]]
end 

to measles-death
  ask measles
  [
    if measles-duration < 1
     [  die  ]
     set measles-duration measles-duration - 1
  ]
end 

to vaccine-death
  ask vaccines
  [
    move
    if vaccine-duration < 1 [die]
    set vaccine-duration vaccine-duration - 1
  ]
end 

to antigen-extinct
  if (count antigens = 0) and (infected = 1)
  [
     output-type "antigen clearance time "  output-print ticks
    set infected 0
  ]
end 

to insert-antigens                               ; create an infection every button push
  output-type "antigen infection time "  output-print ticks
  set infected 1 ; noting that antigens have been put into the cell
    create-antigens antigen-load
    [
     set color black
     set size 2  ; easier to see
     set label-color blue - 2
     setxy random-xcor random-ycor
    ]
end 

to infect-measles
  output-type "measles infection time "  output-print ticks
   create-measles 1
    [
     set color red
     set size 50
     set label-color blue - 2
     setxy 0 0
     set measles-duration 5
    ]

  ask lymphocytes
      [
        if random 100 < 95
        [ die ]
      ]
end 

to insert-vaccine
  output-type "vaccine injection time "  output-print ticks
  create-vaccines vaccine-load
    [
     set color grey
     set size 2  ; easier to see
     set label-color blue - 2
     setxy random-xcor random-ycor
     set vaccine-duration 10
    ]
end 

There is only one version of this model, created over 6 years ago by Jeff Klemens.

Attached files

File Type Description Last updated
Adaptive Immunity.png preview Preview for 'Adaptive Immunity' over 6 years ago, by Jeff Klemens Download
LESSON_PLAN 13 July 2018.pdf pdf Lesson plan for using the model in a classroom setting over 6 years ago, by Jeff Klemens Download

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