delivery of molecular medicine to tumors …2005 3 interstitial transport s.r. chary and r.k. jain,...
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Delivery of Molecular and Cellular Medicine to Tumors
Angiogenesis & Microcirculation (Lecture I)
Vascular Transport(Lecture I) Interstitial and Lymphatic Transport
(Lecture II)
VascularNormalization(Lecture Il)
Harvard-MIT Division of Health Sciences and Technology HST.525J: Tumor Pathophysiology and Transport Phenomena, Fall 2005 Course Director: Dr. Rakesh Jain
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DELIVERY OF MOLECULAR MEDICINE TO TUMORS
Lecture II: Interstitial and Lymphatic Transport
OVERVIEW
R.K. Jain, “Transport of Macromolecules in the Tumor Interstitium: A Review,” Cancer Research, 3038- 47:3050 (1987).R.K. Jain, “1996 Landis Award Lecture: Delivery of Molecular and Cellular Medicine to Solid Tumors,” Microcirculation, 4:1-23 (1997).R.K. Jain, and B.T. Fenton, “Intra-Tumoral Lymphatic Vessels: A Case of Mistaken Identity or Malfunction?” JNCI, 94:417-421 (2002).R.K. Jain, and T.P. Padera, “Prevention and Treatment of Lymphatic Metastasis by Anti-Lymphangiogenic Therapy,”JNCI, 94:785-787 (2002).Jussila L, Alitalo K, “Vascular growth factors and lymphangiogenesis,” Physiology Reviews, 82:673-700 (2002).R.K. Jain and T. P. Padera, “ Lymphatics Make the Break,” Science. 299: 209-210 (2003)R.K. Jain, “Molecular Regulation of Vessel Maturation,” Nature Medicine, 9:685-693 (2003).R.K. Jain “Vascular and Interstitial Biology of Tumors,” In: Clinical Oncology, 3rd Edition (Editors: M. Abeleff, J. Armitage, J. Niederhuber, M. Kastan and G. McKenna), Elsevier, Philadelphia, PA, Chapter 9, pp. 153-172 (2004).
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Interstitial Transport
S.R. Chary and R.K. Jain, “Direct Measurement of Interstitial Diffusion and Convection of Albumin in Normal and NeoplasticTissues Using Fluorescence Photo-bleaching,” PNAS, 86:5385-5389 (1989).D.A. Berk, F. Yuan, M. Leunig and R.K. Jain, “Direct in vivo Measurement of Targeted Binding in a Human Tumor Xenograft, “ PNAS, 94:1785-1790 (1997).A. Pluen, P.A. Netti, R.K. Jain, and D.A. Berk, “Diffusion of Macromolecules in Agarose Gels: Comparison of Linear and Globular Configurations,” Biophysical Journal, 77: 542-552 (1999).P.A. Netti, D.A. Berk, M.A. Swartz, A.J. Grodzinsky and R.K. Jain, “Role of Extracellular Matrix Assembly in Interstitial Transport in Solid Tumors,” Cancer Research, 60: 2497-2503 (2000).
A. Pluen, Y. Boucher, S. Ramanujan, T.D. McKee, T. Gohongi, E. di Tomaso, E.B. Brown, Y. Izumi, R.B. Campbell, D.A. Berk, R.K. Jain, "Role of Tumor-Host Interactions in Interstitial Diffusion of Macromolecules: Cranial vs. Subcutaneous tumors," PNAS, 98: 4628-4633 (2001).C. de L. Davies, D.A. Berk, A. Pluen, and R.K. Jain, “Comparison of IgG Diffusion and Extracellular Matrix Composition in Rhabdomyosarcomas Grown in Mice Versus In Vitro as Spheroids Reveals the Role of Host Stromal Cells,” BJC, 86:1639-1644 (2002)S. Ramanujan, A. Pluen, R.D. McKee, E.B. Brown, Y. Boucher, R.K. Jain, “Diffusion and Convection in Collagen Gels: Implications for Transport in the Tumor Interstitium,” Biophysical Journal. 83: 1650-1660 (2002).E. Brown, T. McKee, E. di Tomaso, B. Seed, Y. Boucher, R.K. Jain, “Dynamic Imaging of Collagen and its Modulation in Tumors in vivo using Second Harmonic Generation,”Nature Medicine. 9: 796-801 (2003).G. Alexandrakis, E. B. Brown, R. T. Tong, T. D. McKee, R. B. Campbell, Y. Boucher and R. K. Jain, “Two-photon fluorescence correlation microscopy reveals the two-phase nature of transport in tumors,” Nature Medicine, 10:203-207 (2004).E. B. Brown, Y. Boucher, S. Nasser, and R. K. Jain,”Measurement of Macromolecular Diffusion Coefficients in Human Tumors”, Microvascular Research, 67 231-236 (2004).
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Lymphatic Transport
A. Leu, D.A. Berk, F. Yuan and R.K. Jain, “Flow Velocity in the Superficial Lymphatic Network of the Mouse Tail,”American Journal of Physiology, 267:H1507-H1513 (1994).M.A. Swartz, D.A. Berk and R.K. Jain, “Transport in Lymphatic Capillaries: I. Macroscopic Measurements Using Residence Time Distribution Theory,” American Journal of Physiology, 270:H324-H329 (1996).D.A. Berk, M.A. Swartz, A.J. Leu, and R.K. Jain, “Transport in Lymphatic Capillaries: II. Microscopic Velocity Measurement with Fluorescence Recovery After Photobleaching,” American Journal of Physiology, 270:H330-H337 (1996).M. Jeltsch, A. Kaipainen, M. Swartz, D. Fukumura, R.K. Jain, and K. Alitalo, “Hyperplasia of Lymphatic Vessels in VEGF-C Transgenic Mice,” Science, 276:1423-1425 (1997).S.A. Slavin, A.D. van den Abbeele, A. Losken, M. Swartz, and R.K. Jain, “Return of Lymphatic Function Following Flap Transfer for Acute Lymphedema,” Annals of Surgery, 229:421-427 (1999).
M.A. Swartz, A. Kaipainen, P. Netti, C. Brekken, Y. Boucher, A.J.Grodzinsky and R.K.Jain, “Mechanics of Interstitial-Lymphatic Fluid Transport: Theoretical Foundation and Experimental Validation,” Journal of Biomechanics, 32: 1297-1303 (1999).A.J. Leu, D.A. Berk, A. Lymboussaki, K. Alitalo and R.K. Jain, “Absence of Functional Lymphatics within a MurineSarcoma: a Molecular and Functional Evaluation,” Cancer Research, 60: 4324-4327 (2000).M.A. Swartz, A. Kaipainen, P. Netti, C. Brekken, Y. Boucher, A.J.Grodzinsky and R.K.Jain, “Mechanics of Interstitial-Lymphatic Fluid Transport: Theoretical Foundation and Experimental Validation,” Journal of Biomechanics, 32: 1297-1303 (1999).A.J. Leu, D.A. Berk, A. Lymboussaki, K. Alitalo and R.K. Jain, “Absence of Functional Lymphatics within a MurineSarcoma: a Molecular and Functional Evaluation,” Cancer Research, 60: 4324-4327 (2000).A. Kadambi, C.M. Carreira, C.-O. Yun, T.P. Padera, D.E.J.G.J. Dolmans, P. Carmeliet, D. Fukumura and R.K. Jain. “Vascular endothelial Growth Factor (VEGF)-C Differentially Affects Tumor Vascular Function and Leukocyte Recruitment: Role of VEGF-Receptor 2 and Host VEGF-A,” Cancer Research, 61: 2404-2408 (2001).
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C. Mouta Carreira, S.M. Nasse, E. diTomaso, T.P. Padera, Y. Boucher, S.I. Tomarev, R.K. Jain, “LYVE-1 is not Restricted to the Lymph Vessels: Expression in Normal Liver Blood Sinusoids and Down-regulation in Human Liver Cancer and Cirrhosis,” Cancer Research, 61:8079-8084 (2001).T.P. Padera, B.R. Stoll, P.T.C. So, and R.K. Jain, “High-Speed Intravital Multiphoton Laser Scanning Microscopy of Microvasculature, Lymphatics, and Leukocyte-Endothelial Interactions,” Molecular Imaging, 1:9-15 (2002)
T.P. Padera, E. di Tomaso, A. Kadambi, C. Mouta Carreira, E.B. Brown, Y. Boucher, N.C. Choi, D. Mathisen, J. Wain, E.J. Mark, L.L. Munn, R.K. Jain, “Lymphatic Metastasis in the Absence of Functional Intratumor Lymphatics,” Science, 296:1883-1886 (2002)
T.P. Padera, E. di Tomaso, A. Kadambi, C. Mouta Carreira, E.B. Brown, Y. Boucher, N.C. Choi, D. Mathisen, J. Wain, E.J. Mark, L.L. Munn, R.K. Jain, “Lymphatic Metastasis in the Absence of Functional Intratumor Lymphatics,” Science, 296:1883-1886 (2002)
T. Padera, B. Stoll, J. Tooredman, D. Capen, E. di Tomaso, and R. K. Jain, “Cancer cells compress intratumor vessels,”Nature, 427: 695 (2004).
J. Hagendoorn, T.P. Padera, S. Kashiwagi, N. Isaka, F. Noda, M.I. Lin, P.L.Huang, W.C. Sessa, D. Fukumura, and R.K. Jain. “Endothelial nitric oxide synthase regulates microlymphatic flow via collecting lymphatics,” Circulation Research, 95: 204-9 (2004).
N. Isaka, T. P. Padera, J. Hagendoorn, D. Fukumura, and R. K. Jain, “Peritumor lymphatics induced by vascular endothelial growth factor-C exhibit abnormal function,” Cancer Research, 64: 4400-4404 (2004).
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Interstitial Transport
Figure by MIT OCW.
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Measuring Convection, Diffusion and Binding
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Fluorescence Recovery After Photobleaching
time
I/I0
I0
0 5
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Typical Values of Interstitial Convective Velocities & Directions
Chary & Jain, PNAS (1989)Reference:
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Interstitial Diffusion of IgG in LS174T Xenograft
0
10
20
30
40
50
10-8 10-7.5 10-7 10-6.5 10-6
Cou
nt
D (cm2/s)
Dmean = 1.3 x10-7
D0
0
0.2
0.4
0.6
0.8
1
Fab' Albumin IgG
Diffusing molecule
D/D0
Berk et al. PNAS (1997)Reference:
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Time Constant for Diffusion
Distance IgG Fab
100 µm
1 mm
1 cm
~ 0.5 hours ~ 0.2 hours
~ 2–3 days ~ 0.5–1 days
~ 7 months ~ 2 months
PlasmaHalf-life
~ hours~ days
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10 sec 100 sec
Specific Antibody
Non-Specific Antibody
1 sec
Berk et al. PNAS (1997)Reference:
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Effect of Molecular Configuration on Diffusion
10 -10
10 -9
10 -8
10 -7
10 -6
10 -5
1 10 100 1000
2s-1
Experimental Hydrodynamic Radius, RH
, nm
"Spherical"molecules
DNA
in 0.1M PBS
<rp>
<rp>: experimentalpore radius
Molecular size
Diffusioncoefficient
Pluen et al. Biophysical Journal (1999)Reference:
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Diff
usio
n co
effic
ient
(cm
2 s-1
)
0.1 1 10 100
10-5
10-6
10-7
10-8
10-9
10-10
Hydrodynamic radius (nm)
Cranial windowDorsal window
Interstitial diffusion varies with site of growth
Courtesy of National Academy of Sciences, U. S. A. Used with permission.Source: Tomaso, E., E. B. Brown, Y. Izumi, R. B. Campbell, D. A. Berk, R. K. Jain. "Role of tumor-host interactions in interstitial diffusion of macromolecules: cranial vs. subc Pluen A, Boucher Y, Ramanujan S, McKee TD, Gohongi T, di utaneous tumors." Proc Natl Acad Sci 98 (2001): 4628-4633. (c) National Academy of Sciences, U.S.A.
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Tumor-Host Interaction Influences Drug Transport
Figure by MIT OCW. After Jain.
Image removed for copyright reasons.
Multicell spheroid human squamous cell carcinoma.See: Science 240, no. 4849 (April 8, 1988): cover page.
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Role of Collagen in Interstitial Transport
-200
20406080
100120
saline collagenase
Increasein D (%)
Treatment: (N=3) (N=4)
TumorMCa-IV LS174T HSTS U87
Collagen content (mg/g)
15
10
5
0
Netti et al. Cancer Research (2000)Reference:
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Collagen Restricts HSV Distribution
50 µm
HSV particles (150 nm)Fibrillar collagen
McKee, Grandi, Mok et al., submitted (2005)Reference:
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Collagenase Co-Injection Improves Virus Distribution
1 mm
Virus Alone
1 mmCollagenase Co-injection Reference: McKee, Grandi, Mok et al., submitted (2005)
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Collagenase Improves Efficacy of MGH2 Oncolytic Viral Therapy
Courtesy of the American Association for Cancer Research. Used with permission. From McKee, T. D., P. Grandi, W. Mok, G. Alexandrakis, N. Insin, J. P. Zimmer, M. G. Bawendi, Y. Boucher, X. O. Breakefield, and R. K. Jain. "Degradation of fibrillar collagen in a human
melanoma xenograft improves the efficacy of an oncolytic herpes simplex virus vector." Cancer Research 66 (2006): 2509-2513.
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Relaxin
fibroblasts
Increased collagen degradation
DecreasesTIMPs
IncreasesMMPs
Decreased collagen production
Decreasescollagensynthesis
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Relaxin treatment modifies collagen structure
Day 0 Day 2 Day 5 Day 8 Day 9 Day 12
relaxin
75 µm
placebo
Reference: Brown, McKee et al., Nature Medicine (2003)
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0
0.5
1
1.5
2
2.5
3
3.5
4
1 1.5 2 2.5
Diff
usio
n co
effic
ient
s, D
, cm
2 s-1
w/o Relaxin w/o Relaxinw Relaxin w Relaxin
IgG Dextran 2,000,000 MW
5.0 10 -8
1.0 10 -7
1.5 10 -7
2.0 10 -7
2.5 10 -7
3.0 10 -7
3.5 10 -7
1.0 10 -9
2.0 10 -9
3.0 10 -9
4.0 10 -9
5.0 10 -9
6.0 10 -9
7.0 10 -9
Brown, McKee et al. Nature Medicine (2003)
Relaxin treatment enhances macromolecular transport
Reference:
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• FRAP can provide direct measurements of diffusion, convection and binding in vivo
• Convection ~ 0.1 - µm/sec• Diffusion ~ 1/3 of water• Non-specific binding ~ 1/4 - 1/3• Interfering with collagen synthesis and/or assembly may
enhance interstitial transport.• Interstitial diffusion depends on the host-tumor interaction.• Fluorescence correlation microscopy can reveal the two-phase
nature of transport in tumors.
Summary
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Intravital Lymphangiography
Leu et al. Am J Physiol. (1994)Hagendoorn et al. (2004)
Reference:
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Lack of Functional Lymphatics in Tumors
Normal tail
Tumor bearing
Courtesy of the American Association for Cancer Research. Used with permission. From Leu, A. J., D. A. Berk, A. Lymboussaki, K. Alitalo, and R. K. Jain. "Absence of functional lymphatics within a murine sarcoma: a molecular and functional evaluation."
Cancer Research 60 (2000): 4324-4327.
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VEGF-C Induces Lymphatic Hyperplasia
Control – Lymph Vessels
VEGF-C Induced Hyperplasia
Reference: Jeltsch et al. Science, (1997)
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Effect of VEGF-C on Lymphatic Metastases
Property Cell LineB16F10-MT B16F10-VEGF-C
P-value*
Lymphatic Metastasis 6/21 15/19 0.002Local Invasion 3/21 12/18 0.001Lung Metastasis† 5/22 2/19 N.S.
T-241-MT T-241-VEGF-CLymphatic Metastasis 2/14 8/14 0.046Local Invasion 4/14 5/14 N.S.Lung Metastasis† 5/14 6/14 N.S.Numerator is the number of mice that exhibited the property, denominator isthe total number of mice.*: P-value based on Fisher’s Exact Test. N.S.: not significant†: Hematogenous metastasis was analyzed microscopically in 10-20 sectionsof lung per animal.
Reference: Padera et al., Science, (2002)
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Lymphatic Function Studies
• Interstitial fluid pressure measurements
• Epifluorescence lymphangiography
• Multi-photon laser scanning microscopy
• Ferritin lymphangiography
Immunohistochemistry
• Lectin, CD31, LYVE-1, Prox 1
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IFP is not changed by VEGF-C overexpression
0
5
10
15
20
25
T-241-VC+T-241-MTNormal tissue
**
* p < 0.05comparedto normaltissue
Reference: Padera et al., Science, (2002)
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VEGF-C induced hyperplasia of peri-tumor lymphatics
0
10
20
30
40
50
60
Dia
met
er (m
icro
ns)
MT VEGF-CGreen: Lymphatic vesselsRed: Blood vessels
Reference: Padera et al., Science, (2002)
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HCCs in Patients Lack Lymphatics
Peritumor
Tumor
Lymphatic vesselsLymphatic vessels
•42 biopsies of liver tumor (HCC + metastases) examined
•No staining for Prox 1 + LYVE-1 was observed in the tumor areaCourtesy of the American Association for Cancer Research. Used with permission. From C, Mouta Carreira, S. M. Nasser, E. di Tomaso,T. P. Padera, Y. Boucher, S. I. Tomarev, and R. K. Jain. "LYVE-1 is not restricted to the lymph vessels: expression in normal liver blood sinusoids and down-regulation in human liver cancer and cirrhosis." Cancer Research 61 (2001): 8079-8084.
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Human Lung Tumors
200 microns
IFP = 9.5 ± 1.5 mmHgn = 27
875 microns
Tumor edgeLymphatic Lymphatic vesselsvessels
Lymphatic Lymphatic vesselsvessels
Reference: Padera et al., Science (2002)
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Fluid pressure can compress impermeable objects Fluid pressure can NOT compress
permeable vessels, such as blood and lymphatic vessels
Solid stress can compress permeable vessels, such as blood and lymphatic vessels
Courtesy of Lance Munn. Used with permission.
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DT treatment opens lymphatic vessels
Reference: Padera, Stoll et al. Nature, (2004)
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Peritumor lymphatics induced by VEGF-C exhibit abnormal function
Normal tissue B16F10-MT
T
B16F10-VEGF-C
T
Control MT VEGF-C0
5
10
Lymphatics
*
Control MT VEGF-C0
5
10
Retrograde lymphatics
*
Courtesy of the American Association for Cancer Research. Used with permission. From Isaka, N., T. P. Padera, J. Hagendoorn, D. Fukumura, and R. K. Jain. "Peritumor lymphatics induced by vascular endothelial growth factor-C exhibit abnormal function." Cancer Research 64 (2004): 4400-4404.
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Image removed for copyright reasons.
See: Jain, R.K., and B.T. Fenton. "Intra-Tumoral Lymphatic Vessels: A Case of Mistaken Identity or Malfunction?"
JNCI 94 (2002): 417-421.
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Summary
• Despite the presence of VEGF-C and its receptor VEGFR3, functional lymphatics cannot be detected in tumors.
• VEGF-C overexpression increases diameter and number of peri-tumor lymphatics.
• Overexpression of VEGF-C and -D increases vascular angiogenesis.
• Levels of VEGF-C and -D correlate with increased lymphatic and hematogeneous metastasis.
• Blocking VEGF-C/-D can prevent lymphatic metastasis.
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Overall Summary
Mechanisms of Heterogeneous Distribution of Macromolecules in Tumors
• Heterogeneous blood flow
• Elevated interstitial pressure
• Fluid oozing from the periphery
• Slow interstitial diffusion
• Retardation by binding
• Heterogeneous expression of antigens
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Strategies for Improved Delivery
• Make the vasculature the target for therapy
• Modify physiological parameters
– Increase perfusion
– Modulate interstitial pressure
– Interfere with collagen synthesis (e.g., relaxin)
– Use multi-step strategies
– “Normalize” the abnormal tumor vasculature