Cell Signaling

1. Cell Signaling

2. Apoptosis, which can be induced by signals from other cells, is the process by which cells do which of the following? A) Move to other parts of the cell (migrate). B) Take on different shapes (morphology) C) Express different genes to take on their final function. D) Kill themselves through programmed cell death E) Eat (phagocytose) other cells

3. Why Cell Signaling? • Cell communication is the process of cells detecting and responding to signals in the extracellular environment • Needed to coordinate cellular activities in a multicellular organism • Apoptosis is caused by signals that intentionally cause a cell to die

4. Why Cell Signaling? • Cell communication or cell signaling involves incoming and outgoing signals • Signals are agents that influence the properties of cells • cAMP • Growth Factors • Hormones • Signals affect the conformation of a receptor (ie a membrane protein) leading to a response inside the cell

5. Why do cells need to respond to signals? • Need to respond to a changing environment • Adaptation or a cellular response is critical for survival • Glucose acts as a signal to yeast cells to increase number of glucose transporters and enzymes allowing efficient uptake and use of glucose

6. Why do cells need to respond to signals? • Cells need to communicate with each other • Cell-to-cell communication • Auxin is a signaling molecule transmitted from cell to cell and inhibited by the light

7. Five Modes of Cell Communication • Direct intercellular signaling • Cell junctions allow signaling molecules to pass from one cell to another. • Contact-dependent signaling • Some molecules are bound to the surface of cells and serve as signals to the cell coming in contact with them. • Autocrine signaling • Cells secrete signaling molecules that bind to their own cell surface or neighboring cells of the same type.

8. Five Modes of Cell Communication (cont) • Paracrine signaling • Signal does not affect cell secreting the signal but does influence cells in close proximity (synaptic signaling). • Endocrine signaling • Signals (hormones) travel long distances and are usually longer lasting.

9. Five Modes of Cell Communication

10. 3 stages of cell signaling • Receptor activation • Signaling molecule binds to receptor • Signal transduction/amplification • Activated receptor stimulates sequence of changes- signal transduction pathway • This can also be used to amplify the signal • Cellular response • Several different responses • Alter activity of 1 or more enzymes • Alter structural protein function • Change gene expression– transcription factor

12. Ligand • Signaling molecule • Binds noncovalently to receptor with high degree of specificity • Binding and release between receptor and ligand relatively rapid • Ligands alter receptor structure- conformational change • Once a ligand is released, the receptor is no longer activated

14. Cell surface receptors • Enzyme-linked receptors • Extracellular domain binds signal • Causes intracellular domain to become functional catalyst • Most are protein kinases

15. G-protein coupled receptors (GPCR)

16. G-protein coupled receptors (GPCR) • Found in all eukaryotes, common in animals • 7 transmembrane segments • Activated receptor binds to G protein • Releases GDP and binds GTP instead • GTP causes G protein to disassociate • α subunit and β/γ dimer interact with other proteins in a signaling pathway

17. Ligand-gated ion channels • Plant and animal cells • Ligand binding causes ion channels to open and ions to flow through the membrane • Animals- signals between nerve and muscle cells or between 2 nerve cells

18. 4. Receptor tyrosine kinases (RTKs) • Category of enzyme-linked receptors found in animals • Recognize various types of signaling molecules • Growth factor – hormone that acts to stimulate cell growth or division • Epidermal Growth Factor (EGF) • Stimulates epidermal cells to divide

19. Epidermal Growth Factor Receptor Pathway

20. Question 5 Receptor tyrosine kinases are found in which of the following? • Bacteria • Archaea • Animals • Plants • All of the above

21. Second Messengers • Signals binding to cell surface are first messenger • Many signal transduction pathways lead to production of second messengers • Relay signals inside cells • Examples • cAMP • Ca2+ • Diacylglycerol and inositol triphosphate

22. Signal transduction via cAMP • Cyclic adenosine monophosphate • Signal binding to GPCR activates G protein to bind GTP causing dissociation • α subunit binds to adenylyl cyclase stimulating synthesis of cAMP

23. Norepinephrine is a hormone that is released into the blood when the adrenal gland is stimulated by the sympathetic preganglionic neurons. What type of signaling effect is does this represent? • Endocrine • Paracrine • Synaptic • Contact Dependent

24. Signal transduction via cAMP • One effect of cAMP is to activate protein kinase A (PKA) • Activated catalytic PKA subunits phosphorylates specific cellular proteins • When signaling molecules no longer produced, eventually effects of PKA reversed

25. Signal transduction via cAMP

26. cAMP has 2 advantages • Signal amplification • Binding of signal to single receptor can cause the synthesis of many cAMP that activate PKA, each PKA can phosphorylate many proteins • Speed • A substantial amount of cAMP can be made within 20 seconds after addition of eipnepherine

27. Signal amplification via cAMP

28. Hormonal signaling • Type of cellular response caused by a given signaling molecule depends in the type of cell responding to the signal • Variation in response determined by types of proteins that each cell makes

29. A cell’s response to hormones and other signaling molecules depends on which proteins it makes • One hormone causes different effects in different cell types • Differential gene expression- all cells contain the same genome but only express particular parts • Can effect cellular response in a variety of ways • Receptor not expressed, different receptors for same signal, different affinities for signal, signal transduction pathways different, protein expression different

30. Epinephrine example • Fight-or-flight hormone • Different effects throughout body • Stimulates heart muscle cells to beat faster • Caffeine inhibits phosphodiesterase • Enzyme removes cAMP once a signaling molecule is no longer present • Inhibition causes cAMP to persist for longer so heart beats faster

31. Cell-Cell Junctions

32. Anchoring junctions (animal cell) • Attach cells to each other and to the ECM • Rely on cell adhesion molecules (CAM) • Cadherin and integrin • 4 main categories • Adherins junctions • Desmosomes • Hemidesmosomes • Focal adhesions

34. Tight junctions in animals • Or occluding junctions • Forms tight seal between adjacent cells • Prevents ECM from leaking between cells • Tight junctions • Made by occludin and claudin • Bind to each to form tight seal • Not mechanically strong, not bound to cytoskeleton

35. Tight junctions in animals

36. Gap junctions in animals • Small gap between plasma membranes of cells at junction • Six connexin proteins in one cell align with six connexin proteins in an adjacent cell to form a connexon • Connexon allows passage of ions and small molecules • Allow adjacent cell to share metabolites and directly signal each other

37. Gap junctions in animals

38. Plasmodesmata in plants • Functionally similar to gap junctions • Allow passage of ions and molecules between adjacent cells • Different in that they are open channels where the cell membrane of one cell is continuous with adjacent cell membrane • Desmotubule connects ER membrane of adjacent cells

39. Plasmodesmata in plants

40. Question 9 Cardiac cells contain ____which allow them to have direct signaling. • Desmosomes • Gap junctions • Intermediate filaments • Hemidesmosomes • Tight junctions

41. Apoptosis • Programmed cell death • Cell shrinks and forms rounder shape • Due to destruction of nucleus and cytoskeleton • Plasma membrane forms blebs • Irregular extensions that break away

42. Kerr, Wyllie, and Currie found that hormone signals can initiate apoptosis • ACTH known to increase number of adrenal cortex cells • Prednisolone suppresses ACTH synthesis and decrease number of adrenal cortex cells • Even in control samples, researchers observed apoptosis • In prednisolone-treated rats, the rate was higher • Results indicate tissues decrease cell number and that cell death was induced, in this case, by a hormone • Coined term apoptosis