- 积分
- 89
- 威望
- 89
- 包包
- 220
|
本帖最后由 flowguo 于 2012-10-11 10:53 编辑
" r7 N5 s6 V7 `, Z6 U% `
) C: Z5 k, s8 a8 [& S( `Dendritic cell protocols + V5 Z. n5 X: V( B, Y9 y' o
: D/ Y7 u7 U6 m6 J: W
edited by Shalin H. Naik. — 2nd ed.
4 J) C% i& G! s# _# n( U+ x" G2 ]% u 9 u- p) i" |. J6 ]
4 J0 Z y y- Q: }
Contents
" W% a7 l+ M- ^6 r' V6 {6 }
" [- L/ z- a0 s+ E1 N2 v Foreword& H# L- @5 p" r' i( r% b4 q
Contributors
$ I. n$ n b) H SECTION I REVIEWS+ _, G9 _; E1 ?- H8 U
1. Review of Human DC Subtypes+ y* r" W8 h' _* e& H7 v
2. Review of Murine Dendritic Cells: Types, Location, and Development 21
9 `1 l6 E: @/ I8 f4 v! }0 b SECTION II HUMAN DC PROTOCOLS 435 J6 x2 n- d4 n3 v/ H$ A
3. Isolation of Human Blood DC Subtypes7 o) \. c+ K8 ^. p1 d7 G/ f7 M
4. Isolation of Immature Primary Langerhans Cells from Human Epidermal Skin 55
* R- Z6 D) g# u* r! X3 Q2 l/ C 5. Isolation and In Vitro Generation of Gene-Manipulated Human Plasmacytoid and Conventional Dendritic Cells 67
( D, E3 q. t- g7 t' h$ ]$ k 6. In Vivo Modulation of Gene Expression by Lentiviral Transduction in "Human Immune System" Rag2-/-%-/- Mice
) l5 S ^: k% E* _4 C 7. Generation of Stable Th1/CTL-, Th2-, and Thl7-Inducing Human Dendritic Cells' s2 }8 T1 D! a3 w5 v
8. Pharmacological Modification of Dendritic Cells to Promote Their Tolerogenicity in Transplantation
" H7 F" e( s/ V \8 ^% Y+ k 9. Towards a Standardized Protocol for the Generation of Monocyte-Derived Dendritic Cell Vaccines 149
1 U; p3 b h9 A9 M SECTION III MURINE DENDRITIC CELL METHODS 165: B* T, [6 H- `% R/ C; O& {
10. CD8+, CD8-, and Plasmacytoid Dendritic Cell Generation In Vitro Using fit3 Ligand 167+ K: N/ Q8 J: a# H' E
11. Generation of Large Numbers of Pro-DCs and Pre-DCs In Vitro 1775 Q D( u: N) S( `
12. The Generation of Plasmacytoid and Conventional Dendritic Cells with M-CSF 187
# m8 C5 |: o2 ` 13. Isolation of Common Dendritic Cell Progenitors (CDP) from Mouse Bone Marrow 1957 O" A5 J, A$ F7 T+ C6 ]8 d! A
14. The Isolation of Mouse Dendritic Cells from Lymphoid Tissues and the Identification of Dendritic Cell Subtypes by Multiparameter Flow Cytometry 205
, ^- D7 v: h! u, _2 W. L" f8 ] 15. Isolation of Cutaneous Dendritic Cells 2316 _ S% T7 r0 A
16. Isolation of Skin Dendritic Cells from Mouse and Man 235
2 R1 T7 K7 r [" O 17. Identification and Isolation of Rodent Respiratory Tract Dendritic Cells 2492 |) p8 e; E2 P# B" a6 ^4 D
18. Isolation of Mouse Thymic Dendritic Cell Precursors 265
# F" \7 c' O! X9 \* K3 w$ f 19. Isolation of Rat Intestinal Lymph DC 281) Q6 b, f' t9 D% C9 d
20. Mouse Models of Viral Infection: Influenza Infection in the Lung 299
: p! {0 M8 \& D+ C5 ?7 | 21. DCs in Mouse Models of Intracellular Bacterial Infection 319+ A/ f1 v m# P3 N$ d
22. Studying the Function of Dendritic Cells in Mouse Models of Asthma 331
) e, w8 z( e3 H( P- e 23. Direct Ex Vivo Activation of T cells for Analysis of Dendritic Cells Antigen Presentation 351' `+ y; K) ?2 T+ o* k8 z0 R. r
24. Methods to Study Pulmonary Dendritic Cell Migration" D* ^) O) t |- U6 W& D8 p
25. Measuring pH, ROS Production, Maturation, and Degradation in Dendritic Cell Phagosomes Using Cytofluorometry-Based Assays 3833 S# g4 G* E6 Y8 ~1 E1 g
26. Adaptive Treg Generation by DCs and Their Functional Analysis 403# b% t- C( ?: t$ `6 F' v1 s/ i
27. Generation of Parabiotic Mice for the Study of DC and DC Precursor Circulation 4130 t* }7 x+ C5 Z- M0 x, F2 W
28. Defining In Vivo Dendritic Cell Functions Using CD11c-DTR Transgenic Mice% _2 J8 f4 {, q
Subject Index 443
" M8 \8 C/ ~) C6 F/ L; F 4 \7 n% {7 v6 ~3 V
$ c0 {" l, u1 d* w9 p! u; I4 T$ C |
|