1. IMMUN 441: Week 5 AC Quiz Section
T cell signaling
B cell signaling
III. T cell development

2. I. T cell signaling

3. Signaling downstream of antigen receptors is mediated by a balance of kinases and phosphatases
Protein
ATP  ADP P T P Y

4. Other important players
Signaling downstream of antigen receptors is mediated by a balance of kinases and phosphatases
Kinase:
Src Family: Src, Fyn, Lck, Lyn, etc.
ZAP-70, Syk
Csk
Itk
PKC-θ
IκB kinase (IKK)
MAP kinase cascade: Raf-Mek-Erk
PI3 kinase
Phosphatase:
CD45
Calcineurin
Other important players
Scaffold proteins
Adaptor proteins
Grb2
Second messengers
Ca2+
Small G proteins
Ras family

5. Important signaling domains
Protein Domain
Found in
Ligand Class
Example of ligand
SH2
Lck, ZAP70, Fyn, Src, Grb2, PLCɣ, Btk, Itk, PI3K
phosphotyrosine
pYXXZ
SH3
Lck, Fyn, Src, Grb2, Btk, Itk
proline
PXXP PH
PLCɣ, Akt, Btk, Itk
phosphoinositides
PIP3 PX
P40phox , P47phox, PLD
PIP2
PDZ
CARMA1
C termini of proteins
IESDV, VETDV C1
RasGRP, PKC-θ
membrane lipid
diacyl glycerol (DAG)
phorbol ester
NZF
TAB2
polyubiquitin
polyubiquitinated RIP, TRAF-6, NEMO

6. T cell signaling video

7. CD4
CD3
CD3
Lck
Cd45, a phosphatase, dephosphorylates Lck, opening it up and allowing it to phorphorylate CD3
Balance of kinases and phosphatases that set the threshold for TCR signaling

8. CD4
CD3
CD3
Lck

9. CD4
CD3
CD3
ZAP70
Lck

10. CD4
LAT
CD3
CD3
ZAP70
Lck
SLP-76

11. CD4
LAT
CD3
CD3
ZAP70
Lck
SLP-76

12. CD4
LAT
CD3
CD3
ZAP70
GADS
Lck
SLP-76

13. GADS scaffold bring them together, complex recruits PLC gamma
CD4
LAT
CD3
CD3
ZAP70
GADS
SLP-76
Lck
GADS scaffold bring them together, complex recruits PLC gamma

14. CD4
LAT
CD3
CD3
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck

15. B7
CD4
LAT
CD28
CD3
CD3
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck

16. B7
CD4
PIP2
LAT
CD28
CD3
CD3
PI3K
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck

17. PIP3 PLCγ B7 CD4 CD28 LAT PI3K ZAP70 Lck SLP-76
GADS
SLP-76
Lck
If you don’t have costimulation, what happens? Which TFs will you get? Which ones won’t you get?

18. CD4
PIP3
LAT
CD3
CD3
Itk
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck

19. PIP3 Itk PLCγ CD4 LAT ZAP70 Lck SLP-76
GADS
SLP-76
Lck
PIP3 recruits Itk PH domain, which can phosphorylate PLCgamma

20. CD4
PIP2
LAT
CD3
CD3
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck

21. DAG IP3 PLCγ CD4 LAT ZAP70 Lck SLP-76
GADS
SLP-76
Lck
Hydrolyzes pip2 into IP3 and DAG (which are second messengers)
DAG diffuses into the membrane

22. IP3 PLCγ CD4 LAT ZAP70 Lck SLP-76
GADS
SLP-76
Lck
IP3 diffuses through cytosol to the ER
Ca2+
Ca2+

23. IP3 PLCγ CD4 LAT ZAP70 Lck SLP-76 CD3 CD3 PLCγ Ca2+ Ca2+ Ca2+ Ca2+
GADS
SLP-76
Lck
Ca2+
Ca2+
Ca2+
Ca2+

24. IP3 PLCγ CD4 LAT ZAP70 Lck SLP-76
CRAC
CRAC
IP3
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck
Ca2+
Ca2+
Depletion of ER calcium leads to CRAC channel formation,
Ca2+
Ca2+

25. IP3 PLCγ CD4 LAT ZAP70 Lck SLP-76 influx of extracellular calcium CD3
CRAC
CRAC
IP3
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck
Ca2+
Ca2+
influx of extracellular calcium
Ca2+
Ca2+

26. IP3 PLCγ NFAT CD4 LAT ZAP70 Lck SLP-76 CD3 CD3 PLCγ Calmodulin Ca2+
CRAC
CRAC
IP3
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Ca2+
Lck
Calmodulin
Ca2+
Ca2+
NFAT
Ca2+
Ca2+

27. IP3 PLCγ NFAT CD4 LAT ZAP70 Lck SLP-76
CRAC
CRAC
IP3
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck
Calcineurin
Ca2+
Calmodulin
Ca2+
Ca2+
NFAT
Calcium bound calmodulin serves as a platform for the phosphatase calcineurin, which then dephorphorylates the TF NFAT
Ca2+
Ca2+

28. IP3 PLCγ NFAT CD4 LAT ZAP70 Lck SLP-76 CD3 CD3 PLCγ Calcineurin
CRAC
CRAC
IP3
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck
Calcineurin
Ca2+
Ca2+
Ca2+
Calmodulin
NFAT
Ca2+
Ca2+

29. IP3 PLCγ IL-2 NFAT NFAT CD4 LAT ZAP70 Lck SLP-76
CRAC
CRAC
IP3
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck
Calcineurin
Ca2+
Ca2+
Ca2+
Calmodulin
Translocates to the nucleates, where it can bind to its target loci, this TF alone not enough for IL-2 transcription
Why is IL-2 important? Why do we not want only one TF initiating IL-2 transcription.
Ca2+
Ca2+
IL-2
NFAT
NFAT

30. DAG PLCγ IL-2 NFAT NFAT CD4 LAT ZAP70 Lck SLP-76
GADS
SLP-76
Lck
Now back to DAG, the secondary messenger important for NFkb and AP1 TF activation
IL-2
NFAT
NFAT

31. DAG PKCθ PLCγ IL-2 NFAT NFAT CD4 LAT ZAP70 Lck SLP-76 CD3 CD3 PLCγ
GADS
SLP-76
Lck
IL-2
NFAT
NFAT

32. DAG PKCθ PLCγ IL-2 NFAT NFAT CD4 LAT ZAP70 Lck SLP-76
CARMA1
BcL10 MALT-1
PKCθ
PLCγ
ZAP70
GADS
SLP-76
Lck
Recruits PKC theta, phosphorylates CARMA, recruits BCL10,MALt-1
IL-2
NFAT
NFAT

33. PKCθ IKKα/β/γ IκB NFκB NFAT NFAT
CD4
DAG
LAT
CD3
CD3
CARMA1
BcL10 MALT-1
PKCθ
PLCγ
PLCγ
IKKα/β/γ
ZAP70
GADS
SLP-76
Lck
IκB
NFκB
IL-2
NFAT
NFAT

34. PKCθ IKKα/β/γ IκB NFκB NFAT NFAT
CD4
DAG
LAT
CD3
CD3
CARMA1
BcL10 MALT-1
PKCθ
PLCγ
PLCγ
IKKα/β/γ
ZAP70
GADS
SLP-76
Lck
IκB
NFκB
Ikbeta is phorphorylated and degraded, allowing NFkb transocation to the nucleus
IL-2
NFAT
NFAT

35. PKCθ IKKα/β/γ NFκB NFAT NFAT
CD4
DAG
LAT
CD3
CD3
CARMA1
BcL10 MALT-1
PKCθ
PLCγ
PLCγ
IKKα/β/γ
ZAP70
GADS
SLP-76
Lck
NFκB
IL-2
NFAT
NFAT

36. PKCθ IKKα/β/γ NFAT NFκB NFAT NFkB
CD4
DAG
LAT
CD3
CD3
CARMA1
BcL10 MALT-1
PKCθ
PLCγ
IKKα/β/γ
ZAP70
GADS
SLP-76
Lck
IL-2
NFAT
NFκB
NFAT
NFkB

37. DAG PLCγ IL-2 NFAT NFκB NFAT NFkB CD4 LAT ZAP70 Lck SLP-76 CD3 CD3
GADS
SLP-76
Lck
IL-2
NFAT
NFκB
NFAT
NFkB

38. DAG PLCγ IL-2 NFAT NFκB NFAT NFkB CD4 LAT ZAP70 Lck SLP-76 CD3 CD3
Ras-GRP
PLCγ
ZAP70
GADS
SLP-76
Lck
IL-2
NFAT
NFκB
NFAT
NFkB

39. DAG PLCγ IL-2 NFAT NFκB NFAT NFkB CD4 Ras LAT ZAP70 Lck SLP-76 CD3 CD3
Ras-GRP
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck
IL-2
NFAT
NFκB
NFAT
NFkB

40. DAG PLCγ IL-2 NFAT NFκB NFAT NFkB CD4 Ras LAT ZAP70 Lck SLP-76 CD3 CD3
Ras-GRP
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck
IL-2
NFAT
NFκB
NFAT
NFkB

41. DAG PLCγ IL-2 NFAT NFκB NFAT NFkB CD4 Ras LAT Raf ZAP70 Lck SLP-76 CD3
Ras-GRP
Raf
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck
IL-2
NFAT
NFκB
NFAT
NFkB

42. DAG PLCγ MEK IL-2 NFAT NFκB NFAT NFkB CD4 Ras LAT Raf ZAP70 Lck SLP-76
Ras-GRP
Raf
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck
MEK
IL-2
NFAT
NFκB
NFAT
NFkB

43. MEK ERK NFAT NFκB NFAT NFkB
CD4
DAG
Ras
LAT
CD3
CD3
Ras-GRP
Raf
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck
MEK
ERK
Ras – Raf – Mek – Erk: MAP kinase cascade
IL-2
NFAT
NFκB
NFAT
NFkB

44. MEK ERK NFAT NFκB NFAT NFkB
CD4
DAG
Ras
LAT
CD3
CD3
Ras-GRP
Raf
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck
MEK
ERK
c-Fos is induced by transcriptional activation (not present in unstimulated cells)
IL-2
c-Fos
NFAT
NFκB
NFAT
NFkB

45. MEK JNK NFAT NFκB NFAT NFkB
CD4
DAG
Ras
LAT
CD3
CD3
Ras-GRP
Raf
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck
MEK
JNK
IL-2
c-Fos
NFAT
NFκB
NFAT
NFkB

46. MEK JNK NFAT NFκB NFAT NFkB
CD4
DAG
Ras
LAT
CD3
CD3
Ras-GRP
Raf
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck
MEK
JNK
c-Jun is activated directly by MAPK phosphorylation
c-Jun
IL-2
c-Fos
NFAT
NFκB
NFAT
NFkB

47. MEK JNK NFAT NFκB NFAT NFkB AP-1
CD4
DAG
Ras
LAT
CD3
CD3
Ras-GRP
Raf
PLCγ
PLCγ
ZAP70
GADS
SLP-76
Lck
MEK
JNK
IL-2
c-Fos
c-Jun
NFAT
NFκB
NFAT
NFkB
AP-1

48. PIP2 IL-2 NFAT NFkB AP-1 IP3 DAG DAG DAG PLCγ IP3 PKCθ IKKα/β/γ Itk
Ca2+
Ca2+
CD4
Ca2+
Ca2+
PIP2
Ca2+
Ca2+
Ca2+
LAT
DAG
DAG
DAG
CD3
CD3
CRAC
CRAC
PLCγ
CARMA1
BcL10 MALT-1
IP3
ZAP70
GADS
Lck
(Raf)
PKCθ
IKKα/β/γ
SLP-76
Itk
(MEK)
Ras-GRP
Calmodulin
IκB
Calcineurin
IP3
Ca2+
Calmodulin
NFκB
ERK
JNK
Ca2+
c-Jun
NFAT
Ca2+
Ca2+
Ca2+
IL-2
c-Fos
NFAT
NFkB
AP-1

49. All factors converge at the IL-2 promoter
Coincidence Detection: Need signal integration of all factors acting upstream of IL-2 in order for transcription to occur (Protects against aberrant activation of IL-2)

50. handout?

51. II. B cell signaling

52. BCR and TCR share conserved signaling elements

53. Differences in signal initiation

54. III. T cell development

55. MHC molecule expression by cell type
Professional APCs
Discussed MHCII expression in professional APCs previously in the context of initiating adaptive responses to pathogenic infections. Now, focus on MHCII expression and function in thymic epithelial cells – this enables the presentation of self antigen during T cell maturation in order to select against autoreactive TCR clones.

56. FACS plots on right: CD4+CD8+ → CD4

57. Organization of thymus facilitates T cell development

58. TCRβ rearrangement occurs in: DN thymocytes
TCRα rearrangement occurs in: DP thymocytes

59. 1. Beta selection
RAG genes turned on

60. 2. Positive selection/Lineage commitment
RAG genes turned on
Upregulate CD4
Strong
Weak
Signal Strength
CD4 T cell
CD8 T cell

61. 3. Negative selection

62. TCRβ rearrangement occurs in: DN thymocytes
TCRα rearrangement occurs in: DP thymocytes

63. Selection by thymic epithelium Positive Selection
MHC
TECs
Selection by thymic epithelium
Positive Selection
TCRa/B
Positively Selected
Death by Neglect
Negative Selection
Origin of these cells is extremely important in understanding bone marrow chimeras
Self Peptide
Selection by BM-derived APCs
Mφ / DC
Survive
Autoreactive T cells

64. Irradiation kills BM-derived cells but not thymic epithelial cells
MHCa/b
MHCa/b
MHCa/b
Positive Selection

65. Irradiation kills BM-derived cells but not thymic epithelial cells
MHCa/b
MHCa/b
MHCa/b
Positive Selection
MHCa/b
MHCa
MHCb
BM-derived cells: MHC a/b Thymic epithelium: MHCa/b
BM-derived cells: MHC a/b Thymic epithelium: MHCa
BM-derived cells: MHC a/b Thymic epithelium: MHCb
Postiive selction is intrinsic to the thymic environment because only the T-cells coming out of the mouse are MHCa T-cells

66. Irradiation kills BM-derived cells but not thymic epithelial cells
MHCa/b
MHCa/b
MHCa/b
Positive Selection
MHCa/b
MHCa
MHCb
BM-derived cells: MHC a/b Thymic epithelium: MHCa/b
BM-derived cells: MHC a/b Thymic epithelium: MHCa
BM-derived cells: MHC a/b Thymic epithelium: MHCb
Postiive selction is intrinsic to the thymic environment because only the T-cells coming out of the mouse are MHCa T-cells
Predominantly MHCa Restricted T cells
Predominantly MHCb Restricted T cells
Mix of MHCa and MHCb Restricted T cells

67. Negative Selection Graft Rejected Graft Tolerated MHCa/b MHCa IR IR
MHCb IR IR
MHCa
MHCa
Skin Graft
delete any T-cell that is strongly reactive during neg selection, thus eliminating any possible self reactive T-cells
Graft Rejected
Graft Tolerated

68. Positive Selection MHCa presenting TECs MHCa restricted T cells
Positively Selected
Death by Neglect

69. Positive Selection Negative Selection MHCa presenting TECs
MHCa restricted T cells
Positively Selected
Death by Neglect
Negative Selection
MHCa restricted T cells
MHC a/b presenting APCs That present self-peptide A and B
Survive
MHCa restricted
MHCb tolerized
T cells
Autoreactive T cells

70. Questions?