1 / 30

Chapter 6

Chapter 6. Interactions Between Cells and the Extracellular Environment. 6-1. Extracellular Environment. 6-3. Extracellular Environment. Includes all constituents of body outside cells

amedee
Download Presentation

Chapter 6

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chapter 6 Interactions Between Cells and the Extracellular Environment 6-1

  2. Extracellular Environment 6-3

  3. Extracellular Environment • Includes all constituents of body outside cells • 67% of total body H2O is inside cells (=intracellular compartment); 33% is outside cells (=extracellular compartment-ECF) • 20% of ECF is blood plasma • 80% of ECF is interstitial fluid contained in gel-like matrix- where we want H2O to go. 6-4

  4. Body-Fluid Compartments • Body has intracellular and extracellular compartments • Intracellular is inside cells • Extracellular is outside cells • Separated by cell’s outer membrane • Extracellular is composed of blood plasma and interstitial fluid 1-45

  5. Extracellular Matrix • Is a meshwork of collagen and elastin fibers linked to molecules of gel-like ground substance and to plasma membrane integrins • = glycoprotein adhesion molecules that link intracellular and extracellular compartments • Interstitial fluid resides in hydrated gel of ground substance 6-5

  6. Movement Across Plasma Membrane 6-6

  7. Transport Across Plasma Membrane • Plasma membrane is selectively permeable--allows only certain kinds of molecules to pass • Many important molecules have transporters and channels • Carrier-mediated transport involves specific protein transporters • Non-carrier mediated transport occurs by diffusion 6-7

  8. Transport Across Plasma Membrane continued • Passive transport moves compounds down concentration gradient; requires no energy • Active transport moves compounds against a concentration gradient; requires energy and transporters 6-8

  9. Diffusion • Is random motion of molecules • Net movement is from region of high to low concentration 6-9

  10. Diffusion continued • Non-polar compounds readily diffuse thru cell membrane • Also some small molecules such as CO2 and H2O • Gas exchange occurs this way 6-10

  11. Diffusion continued • Cell membranes are impermeable to charged and most polar compounds • Charged molecules must have an ion channel or transporter to move across membrane 6-11

  12. Diffusion continued • Rate of diffusion of a compound depends on: • Magnitude of its concentration gradient • Permeability of membrane to it • Temperature • Surface area of membrane • H2O levels 6-12

  13. Osmosis 6-13

  14. Osmosis • Is net diffusion of H2O across a selectively permeable membrane • H2O diffuses down its concentration gradient • H2O is less concentrated where there are more solutes • Solutes have to be osmotically active • i.e., cannot freely move across membrane 6-14

  15. Osmosis continued • H2O diffuses down its concentration gradient until its concentration is equal on both sides of a membrane • Some cells have water channels (aquaporins) to facilitate osmosis 6-15

  16. Osmotic Pressure • Is the force that would have to be exerted to stop osmosis • Indicates how strongly H2O wants to diffuse • Is proportional to solute concentration 6-16

  17. Tonicity • Is the effect of a solution on osmotic movement of H2O • Isotonic solutions have same osmotic pressure • Hypertonic solutions have higher osmotic pressure and are osmotically active • Hypotonics have lower osmotic pressure • Isosmotic solutions have same osmolality as plasma • Hypo-osmotic solutions have lower osmotic pressure than plasma • Hyperosmotics have higher pressure than plasma 6-19

  18. 6-20

  19. Regulation of Blood Osmolality • Blood osmolality is maintained in narrow range around 300mOsm • If dehydration occurs, osmoreceptors in hypothalamus stimulate: • ADH release • Which causes kidney to conserve H2O and thirst 6-21

  20. Membrane Transport Systems 6-22

  21. Facilitated Diffusion • Is passive transport down concentration gradient by carrier proteins 6-25

  22. Active Transport • Is transport of molecules against a concentration gradient • ATP is required 6-26

  23. Na+/K+ Pump • Uses ATP to move 3 Na+ out and 2 K+ in • Against their gradients 6-27

  24. Membrane Potential 6-35

  25. Membrane Potential • Is difference in charge across membranes • Results in part from presence of large anions being trapped inside cell • Diffusable cations such as K+ are attracted into cell by anions • Na+ is not permeable and is actively transported out 6-36

  26. Equilibrium Potential • Describes voltage across cell membrane if only 1 ion could diffuse • If membrane permeable only to K+, it would diffuse until it reaches its equilibrium potential (Ek) • K+ is attracted inside by trapped anions but also driven out by its concentration gradient • At K+ equilibrium, electrical and diffusion forces are = and opposite • Inside of cell has a negative charge of about -90mV 6-37

  27. Resting Membrane Potential (RMP) • Is membrane voltage of cell not producing impulses • RMP of most cells is –65 to –85 mV • RMP depends on concentrations of ions inside and out • And on permeability of each ion • Affected most by K+ because it is most permeable 6-41

  28. Resting Membrane Potential (RMP) continued • Some Na+ diffuses in so RMP is less negative than EK+ 6-42

  29. Role of Na+/K+ Pumps in RMP • Because 3 Na+ are pumped out for every 2 K+ taken in, pump is electrogenic • It adds about –3mV to RMP 6-43

  30. Summary of Processes that Affect the Resting Membrane Potential 6-44

More Related