Expression of efflux transporters

Platzhalter für Bild, Bild auf Titelfolie hinter das Logo einsetzen

Drug Transporters in the Cornea PD Dr. Stephan Reichl Institute of Pharmaceutical Technology TU Braunschweig Germany Orlando October 29, 2015

AAPS Annual Meeting

Outline • The eye, the cornea and transcorneal drug transport

• Development and characterization of an organotypic, threedimensional in-vitro cell culture model of human cornea for drug absorption studies as replacement for animal testing

• Expression of ABC transporters in animal and human corneal models in-vitro and ex-vivo • Expression of phase I and II metabolizing enzymes in corneal tissue • SLC Transporter - short review from the literature

Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

2

The Eye - Drug transport routes

Anterior

Posterior Barar J et al. (2008) Expert Opin Drug Deliv 5:567-581

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3

Human Cornea Epithelium

Tight junctions

Superficial cells Stroma

Wing cells Basal cells Bowman Membrane

Endothelium

Reichl S. et al. (2011) Expert Opin Drug Metab Toxicol 7:559-578 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

4

Transepithelial drug absorption Influx transport

apical

Efflux transport

Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

5

• The eye, the cornea and transcorneal drug transport

• Development and characterization of an organotypic, threedimensional in-vitro cell culture model of human cornea for drug absorption studies as replacement for animal testing

• Expression of ABC transporters in animal and human corneal models in-vitro and ex-vivo • Expression of phase I and II metabolizing enzymes in corneal tissue • SLC Transporter - short review from the literature

Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

6

Experimental determination of eye-related pharmacokinetic parameters (in-vivo/ex-vivo) • mostly performed in rabbits • per formulation at least 36 animals are needed • enucleation at fixed time points, dissection and drug analysis in ocular tissues and fluids

• Ex-vivo studies using excised corneas (rabbit, pig, cow, …) • per formulation 6 animals are needed • enucleation, Ussing chamber system, determination of transcorneal drug transport Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

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Disadvantages of animal experiments • Ethical concerns • High costs

• Poor standardization and high variability • Questionable extension of animal data to human

Are the cell culture models valid?

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Requirements for a valid corneal cell culture model for in-vitro drug absorption studies • KISS Principle „Keep it simple and significant“ • High equivalence of organotypic characteristics (epithelium plus stroma) • High expression of tight junctions (high transepithelial electrical resistance TEER) • Human cell lines • Serum-free cell cultivation • Equivalence of permeability to ex vivo tissue (marker) • Low variability, high intra- and interlaboratory reproducibility • Similar expression pattern of transport proteins (ABC, SLC transporters) and metabolizing enzymes (phase I and II) Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

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Human corneal cells Tear film Superficial cells

HCE-T

Wing cells

cell line Basal cells Basement membrane

Epithelium

Epithelial cells

HCK

Basement membrane Bowman membrane

cell line Stromal cells

Stroma

HENC cell line

Descemet membrane Endothelium

Endothelial cells

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10

Tight junctions expression in HCE-T cells 40x

40x

40x

DAPI

ZO-1

Occludin

Immunohistological staining of HCE-T monolayer cultures. Detection and localization of tight junctions proteins ZO-1 (red) and occludin (green). Nucleus staining by DAPI (blue).

Hahne M. et al. (2012) J Pharm Sci 101:2976-2988 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

11

Hemicornea model Day Tag 11

Casting of Gießen des collagen solution Stromaäquivalents with HCK cells Verfestigung des Stromaäquivalents Gelling of im collagenLAF solution

Transwell® Insert Polycarbonate Filter

Stroma Biomatrix containing Keratocytes

min ca.ca. 1010 Minuten

Vollständige CompleteGelierung Gelling im Inkubator of collagen solution

Culture Medium

60 ca.Minuten 60 min

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Hemicornea model

Day Tag 1

Seeding ofder Aufbringen epithelial cells Epithelzellsuspension

Corneal Epithelial Cell Sheet

Metal Plate

Day Tag 7

Cultivation Anheben an dieatLuft Air-Liquid Interface Medium Grenze

until Day10 10 bis Tag

Formation of a multilayered epithelium

Corneal Epithelial Cells at Air-Liquid Interface

Metal Plate Multilayered Corneal Epithelium

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Histology

Epithelium

StromaBiomatrix

HE staining Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

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SEM

Toluidine Staining

Histology

20 µm

Fibronectin

5 µm

Laminin

Collagen IV

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Drug transport studies

Day 10

Determination of TEER values

Incubation with Krebs-Ringer buffer

Buffer

ca. 30 min

Permeation Acceptor:

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Drug transport studies

Excised Cornea

Hemicornea Construct Acceptor:

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Drug transport studies 2,5 2.5 Transwell® insert

Permeated amount [µg/cm²]

2,0 2.0

Donor compartment Microporous membrane Acceptor compartment

1,5 1.5

Papp [cm / s] 

1,0 1.0

Flux Donor concentration

0,5 0.5

0.0 0,0

0

50

100

150

200

Time [min] Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

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Comparison between HC Model and excised Cornea Permeation coefficent Papp [cm/s]

Marker Substance

Hemicornea

Porcine Cornea

Rabbit Cornea

Sodium fluorescein

1.98±0.45 x 10-7

1.75±1.51 x 10-7

3.76±1.12 x 10-7

Rhodamine B

9.80±0.72 x 10-6

5.43±1.26 x 10-6

13.49±2.11 x 10-6

FD-4

4.96±1.46 x 10-8

1.67±0.43 x 10-8

9.08±4.88 x 10-8

Hahne M., Reichl S. (2011) Int J Pharm 416:268-279 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

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Prevalidation

Hahne M. et al. (2012) J Pharm Sci 101:2976-2988 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

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Interlaboratory variability and comparison with ex-vivo cornea

Hahne M. et al. (2012) J Pharm Sci 101:2976-2988 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

21

Interlaboratory variability and comparison with ex-vivo cornea

Hahne M. et al. (2012) J Pharm Sci 101:2976-2988 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

22

Equivalence test 1.8E-07

Maximum value of rabbits confidence intervals

1.6E-07

Maximal variation of rabbit confidence intervals

1.4E-07

95% confidence interval Mean of all rabbit batches

1.2E-07

Mean of all HC values

1.0E-07

Acceptance limits for HC batches

8.0E-08 6.0E-08 4.0E-08 2.0E-08 0.0E+00 rabbit/1 rabbit/2 rabbit/3 TUBS-A/1 TUBS-A/2 TUBS-A/3 TUBS-B/1 TUBS-B/2 AB/1 AB/2 UKE/1 UKE/2 UKE/7 UKE/8 UKE/10 UKE/11 UKE/12 UKE/13 UKE/14 UKE/15

Permeation coefficient Papp [cm/s] permeation coefficient [cm/s]

FD-4: 95% confidence intervals for each batch of Hemicornea and rabbit

Hahne M. et al. (2012) J Pharm Sci 101:2976-2988

Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

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Equivalence test Intralaboratory Intralaboratory Intralaboratory TUBS AB UKE

equivalent

not equivalent

FD-4

Na-Fluorescein

Rhodamine B

Aciclovir

Bimatoprost

Dexamethasone

Timolol

Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

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Equivalence test Intralaboratory Intralaboratory Intralaboratory Interlaboratory TUBS AB UKE equivalence

equivalent

not equivalent

FD-4

Na-Fluorescein

Rhodamine B

Aciclovir

Bimatoprost

Dexamethasone

Timolol

Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

25

• The eye, the cornea and transcorneal drug transport

• Development and characterization of an organotypic, threedimensional in-vitro cell culture model of human cornea for drug absorption studies as replacement for animal testing

• Expression of ABC transporters in animal and human corneal models in-vitro and ex-vivo • Expression of phase I and II metabolizing enzymes in corneal tissue • SLC Transporter - short review from the literature

Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

26

Membrane bound transport proteins Substrates of SLC transporters: amino acids, sugars, peptides, lactate, vitamins etc.

• P-Glycoprotein • MRPs • BCRP Hediger M et al. (2004) Pflugers Arch - Eur J Physiol 447:465–468

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Expression of efflux transporters MDR1 bp

bp

500

500

300

300

100

100

PC

(1) Caco-2 Cells (2) HCE-T Cells (3) Hemicornea Construct (4) Porcine Cornea (5) Rabbit Cornea (6) Human Epithelial Cornea Cells

M PC 1

M

2 1

32

4 3

54

65

6

Verstraelen J., Reichl S. (2013) Int J Pharm 441:765-775 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

28

Expression of efflux transporters MDR1 3

4

5

6

-

-

-

+

-

Caco-2 Cells

+

2

Rabbit Cornea

1

(1) Caco-2 Cells (2) HCE-T Cells (3) Hemicornea Construct (4) Porcine Cornea (5) Rabbit Cornea (6) Human Epithelial Cornea Cells

Verstraelen J., Reichl S. (2013) Int J Pharm 441:765-775 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

29

Expression of efflux transporters • Bidirectional Transport Basolateral  Apical

Apical  Basolateral Transwell® Insert

Acceptor Krebs-Ringer Buffer

Cell Layer Donor specific substrate

• Substrates and Inhibitors MDR1 Substrate

Rhodamine123 (50-100 µg/mL)

Inhibitor

Verapamil (200 µM)

Localisation

Apical

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30

Expression of efflux transporters • Bidirectional permeation coefficients Papp (x 10-6 cm/s) Rhodamine123 Caco-2 Cells

HCE-T Cells

Hemicornea Construct

Porcine Cornea

Rabbit Cornea

AB

1.07 ± 0.13

0.90 ± 0.21

0.58 ± 0.05

0.25 ± 0.04

0.27 ± 0.17

BA

3.49 ± 0.41 *

0.96 ± 0.61

0.55 ± 0.06

0.16 ± 0.09

0.80 ± 0.09 *

• Efflux ratio: B  A / A  B > 2 3,5

MDR1

3

Efflux Ratio

2,5 2 1,5 1 0,5 * p < 0.05, t-test n=6, mean ± SD

0 1

2

3

4

5

Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

31

Expression of efflux transporters • Bidirectional permeation coefficients Papp (x 10-6 cm/s) Rhodamine123 Caco-2 Cells

HCE-T Cells

Hemicornea Construct

Porcine Cornea

Rabbit Cornea

AB

1.07 ± 0.13

0.90 ± 0.21

0.58 ± 0.05

0.25 ± 0.04

0.27 ± 0.17

BA

3.49 ± 0.41 *

0.96 ± 0.61

0.55 ± 0.06

0.16 ± 0.09

0.80 ± 0.09 *

• Efflux ratio: B  A / A  B > 2 3,5

MDR1

3

Efflux Ratio

2,5 2 1,5 1 0,5 * p < 0.05, t-test n=6, mean ± SD

0 1

2

3

4

5

Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

32

Expression of efflux transporters BCRP (1) Caco-2 Cells (2) HCE-T Cells (3) Hemicornea Construct (4) Porcine Cornea (5) Rabbit Cornea (6) Human Epithelial Cornea Cells

MRP3

Verstraelen J., Reichl S. (2013) Int J Pharm 441:765-775 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

33

Expression of efflux transporters BCRP

+

+

-

-

-

-

+

+

+

-

+

-

MRP3

(1) Caco-2 Cells (2) HCE-T Cells (3) Hemicornea Construct (4) Porcine Cornea (5) Rabbit Cornea (6) Human Epithelial Cornea Cells Verstraelen J., Reichl S. (2013) Int J Pharm 441:765-775 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

34

Caco-2 Cells

HCE-T Cells HCE-T Cells Porcine Cornea

MRP3

Caco-2 Cells

BCRP

Hemicornea

Expression of efflux transporters

Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

35

Expression of efflux transporters BCRP

Transport of methotrexate in the presence of verapamil

Verstraelen J., Reichl S. (2013) Int J Pharm 441:765-775 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

36

Expression of efflux transporters MRP 3

Transport of methotrexate in the presence of verapamil and Ko143

Verstraelen J., Reichl S. (2013) Int J Pharm 441:765-775 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

37

Expression of efflux transporters MRP1, 2, 4 and 5 (1) Caco-2 Cells (2) HCE-T Cells (3) Hemicornea Construct (4) Porcine Cornea (5) Rabbit Cornea (6) Human Epithelial Cornea Cells

Verstraelen J., Reichl S. (2014) Mol Pharm 11:2160-2171 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

38

Expression of efflux transporters MRP1, 2, 4 and 5

Verstraelen J., Reichl S. (2014) Mol Pharm 11:2160-2171 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

39

Expression of efflux transporters

Hemicornea

Rabbit Cornea

Caco-2 Cells

HCE-T Cells

MRP1

Verstraelen J., Reichl S. (2014) Mol Pharm 11:2160-2171 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

40

Expression of efflux transporters

Rabbit Cornea

HCE-T Cells

Caco-2 Cells

MRP2

Verstraelen J., Reichl S. (2014) Mol Pharm 11:2160-2171 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

41

Expression of efflux transporters

Hemicornea

Porcine Cornea

HCE-T Cells

Caco-2 Cells

MRP4

Verstraelen J., Reichl S. (2014) Mol Pharm 11:2160-2171 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

42

Expression of efflux transporters

Hemicornea

Porcine Cornea

HCE-T Cells

Caco-2 Cells

MRP5

Verstraelen J., Reichl S. (2014) Mol Pharm 11:2160-2171 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

43

Expression of efflux transporters MRP2

Transport of erythromycin in the presence of verapamil

Permeation coefficient [cm/s]

1.0E-05 9.0E-06

**

8.0E-06 7.0E-06 6.0E-06

*

5.0E-06 4.0E-06

*

3.0E-06

2.0E-06

*

1.0E-06 0.0E+00 Caco-2 cells

HCE-T epithelial model

Hemicornea construct

Apical - Basolateral

Porcine cornea

Rabbit cornea

Basolateral - Apical Verstraelen J., Reichl S. (2014) Mol Pharm 11:2160-2171

Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

44

Expression of efflux transporters Uptake Assay MRP1 and 5 CDCFDA

CDCF

Intracellular esterase activity

Cell

X Inhibitor (probenecid)

MRP4 [H3] Adefovir dipivoxil

Cell

X

scintillation counting

Inhibitor (indometacin) Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

45

Expression of efflux transporters MRP1 and 5

CDCF concentrations in the acceptor compartment

Concentration CDCF [µM]

2.25E+00 4.5E-01

4.0E-01 2.0E+00 3.5E-01 1.75E+00

3.0E-01 1.5E+00

**

2.5E-01 1.25E+00

2.0E-01 1.0E+00 1.5E-01 1.5E-01

1.0E-01 1.0E-01 5.0E-02 0.5E-01

***

0.0E+00 0.0E00 Caco-2 cells

*

* HCE-T epithelial model

Hemicornea construct

Without Inhibitor

Porcine cornea

Rabbit cornea

With Inhibitor Verstraelen J., Reichl S. (2014) Mol Pharm 11:2160-2171

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46

Expression of efflux transporters MRP4

Accumulated cellular concentrations of adefovir

Concentration Adefovir [pmol]

1.8E+02

*

1.6E+02

1.4E+02

*

1.2E+02

1.0E+02

*

8.0E+01

*

6.0E+01

*

4.0E+01 2.0E+01 0.0E+00 Caco-2 cells

HCE-T epithelial model

Without Inhibitor

Hemicornea construct

Porcine cornea

Rabbit cornea

With Inhibitor Verstraelen J., Reichl S. (2014) Mol Pharm 11:2160-2171

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47

Expression of efflux transporters - Summary MDR1 Hemicornea Construct

MRP1

MRP2

MRP3

MRP4

MRP5

BCRP

◊ -

- + + + + -

- + + - + + + + + + + ◊ +

Porcine Cornea

-

- + -

- + ◊ - + + + + + - ◊ -

Rabbit Cornea

+ + + + + + + + + + ◊ -

HEC

-

◊ -

- + -

/ + ◊ / + -

-

-

- ◊ ◊ + -

-

-

/ + ◊ / ◊ ◊ / + ◊ / + ◊ /

+: Detected -: Not Detected ◊: Weak Detection /: Not tested, Tissue not available Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

48

Expression of efflux transporters - Summary MDR1 Hemicornea Construct

MRP1

MRP2

MRP3

MRP4

MRP5

BCRP

◊ -

- + + + + -

- + + - + + + + + + + ◊ +

Porcine Cornea

-

- + -

- + ◊ - + + + + + - ◊ -

Rabbit Cornea

+ + + + + + + + + + ◊ -

HEC

-

◊ -

- + -

/ + ◊ / + -

-

-

- ◊ ◊ + -

-

-

/ + ◊ / ◊ ◊ / + ◊ / + ◊ /

+: Detected -: Not Detected ◊: Weak Detection /: Not tested, Tissue not available Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

49

Expression of efflux transporters - Summary MDR1 Hemicornea Construct

MRP1

MRP2

MRP3

MRP4

MRP5

BCRP

◊ -

- + + + + -

- + + - + + + + + + + ◊ +

Porcine Cornea

-

- + -

- + ◊ - + + + + + - ◊ -

Rabbit Cornea

+ + + + + + + + + + ◊ -

HEC

-

◊ -

- + -

/ + ◊ / + -

-

-

- ◊ ◊ + -

-

-

/ + ◊ / ◊ ◊ / + ◊ / + ◊ /

+: Detected -: Not Detected ◊: Weak Detection /: Not tested, Tissue not available Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

50

Expression of efflux transporters - Summary MDR1 Hemicornea Construct

MRP1

MRP2

MRP3

MRP4

MRP5

BCRP

◊ -

- + + + + -

- + + - + + + + + + + ◊ +

Porcine Cornea

-

- + -

- + ◊ - + + + + + - ◊ -

Rabbit Cornea

+ + + + + + + + + + ◊ -

HEC

-

◊ -

- + -

/ + ◊ / + -

-

-

- ◊ ◊ + -

-

-

/ + ◊ / ◊ ◊ / + ◊ / + ◊ /

+: Detected -: Not Detected ◊: Weak Detection /: Not tested, Tissue not available Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

51

Comparison with data from literature MDR1

Excised cornea mRNA level Human Rabbit

Protein level

Functionality

+++

References 1, 2, 3

--

--

4, 5, 6,

+

++++

7, 8, 9, 10

-

6

1

Dey S, Patel J, Anand BS, et al. Invest Ophthalmol Vis Sci 2003;44:2909-18

2

Xiang CD, Batugo M, Gale DC, et al. Drug Metab Dispos 2009;37:992-8

3

Zhang T, Xiang CD, Gale D, et al. Drug Metab Dispos 2008;36:1300-7

4

Vellonen KS, Mannermaa E, Turner H, et al. J Pharm Sci 2010;99:1087-98

5

Becker U, Ehrhardt C, Daum N, et al. J Ocul Pharmacol Ther 2007;23:172-81

6

Becker U, Ehrhardt C, Schneider M, et al. ATLA 2008;36:33-44

7

Dey S, Gunda S, Mitra AK. J Pharmacol Exp Ther 2004;311:246-55

8

Kawazu K, Oshita A, Nakamura T, et al. Biol Pharm Bull 2006;29:846-9

9

Hariharan S, Minocha M, Mishra GP, et al. J Ocul Pharmacol Ther 2009;25:487-97

10

Hariharan S, Gunda S, Mishra GP, et al. Pharm Res 2009;26:1270-82

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52

Comparison with data from literature MDR1

Corneal epithelial cells in culture

Human Rabbit

mRNA level

Protein level

Functionality

References

----

-

-----

1-4

++++

+++

+++++++

5 -11

-

1

1

Becker U, Ehrhardt C, Schneider M, et al. ATLA 2008;36:33-44

2

Becker U, Ehrhardt C, Daum N, et al. J Ocul Pharmacol Ther 2007;23:172-81

3

Xiang CD, Batugo M, Gale DC, et al. Drug Metab Dispos 2009;37:992-8

4

Vellonen KS, Mannermaa E, Turner H, et al. J Pharm Sci 2010;99:1087-98

5

Dey S, Patel J, Anand BS, et al. Invest Ophthalmol Vis Sci 2003;44:2909-18

6

Kawazu K, Yamada K, Nakamura M, Ota A Invest Ophthalmol Vis Sci 1999;40:1738-44

7

Kawazu K, Oshita A, Nakamura T, et al. Biol Pharm Bull 2006;29:846-9

8

Dey S, Gunda S, Mitra AK. J Pharmacol Exp Ther 2004;311:246-55

9

Hariharan S, Minocha M, Mishra GP, et al. J Ocul Pharmacol Ther 2009;25:487-97

10

Hariharan S, Gunda S, Mishra GP, et al. Pharm Res 2009;26:1270-82

11

Katragadda S, Talluri R, Mitra AK. J Ocul Pharmacol Ther 2006;22:110-20

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53

Comparison with data from literature

HCC

Human corneal cell culture models

Human cornea ex-vivo

Rabbit corneal cell culture models

Rabbit cornea ex-vivo

MDR1

-

-

-

+

+

MRP1

+

+

+

n.d.

+

MRP2

-

-/+

-

+

+

MRP3

-/+

-/+

-/+

n.d.

-/+

MRP4

+

+

-/+

n.d.

-

MRP5

+

+

+

+

+

BCRP

+

+

+

n.d.

-

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54

Comparison with data from literature

HCC

Human corneal cell culture models

Human cornea ex-vivo

Rabbit corneal cell culture models

Rabbit cornea ex-vivo

MDR1

-

-

-

+

+

MRP1

+

+

+

MRP2

-

-/+

-

MRP3

-/+

-/+

-/+

-/+

MRP4

+

+

-/+

-

MRP5

+

+

+

BCRP

+

+

+

+ +

+

+

+ -

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55

Overexpression of P-Glycoprotein MDR1 – Rabbit (SIRC cell culture model)

• SIRC cells were incubated with 10 µg/mL levofloxacin, ofloxacin and gatifloxacin for 3 weeks • Efflux activity was measured by uptake studies, flowcytometry and qRT-PCR • long-term exposure induced significant overexpression of P-gp in SIRC cells

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56

10 *

5

Upregulation of P-Glycoprotein in corneal models 0

Medium

Rhodamine123 Rhodamine123 Rhodamine123 4 hours 24 hours 72 hours

30 18

**

20

16 * Changes in the MDR1 mRNA level * 14 relative to control (medium) by real12 10 time PCR in the HCE-T cells following 8 treatment with rhodamine 123, * 6 4 levofloxacin and acebutolol

Upregulation

Upregulation

25

15 10 *

5

2

0 Medium

0

Rhodamine123 Rhodamine123 Rhodamine123 4 hours 24 hours 72 hours

Medium

Levof loxacine 4 hours

Levof loxacine 24 hours

Levof loxacine 72 hours

12 18 16

*

*

Upregulation

Upregulation

14

12 10 8 *

6

**

10

4

8 6

*

4

*

2

2

0

0 Medium

Levof loxacine 4 hours

Levof loxacine 24 hours

Levof loxacine 72 hours

lation

8

Acebutolol 4 hours

Acebutolol 24 hours

Acebutolol 72 hours

Verstraelen J., Reichl S. (2015) J Pharm Pharmacol 67:605-615

12 10

Medium

Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting **

57

Upregulation of P-Glycoprotein in corneal models Caco-2 cells

HCE-T model

Hemicornea

Medium

4 hours

24 hours

72 hours

Rhodamine 123

3.04 ± 0.33

3.32 ± 0.51

5.08 ± 0.73*

5.03 ± 1.33*

Levofloxacin

2.40 ± 0.06

2.56 ± 0.29

2.83 ± 0.51*

2.19 ± 0.69*

Acebutolol

2.99 ± 0.60

2.98 ± 0.14

3.05 ± 0.14*

4.44 ± 1.13*

Rhodamine 123

0.58 ± 0.07

0.55 ± 0.02

0.52 ± 0.01*

3.42 ± 0.26**

Levofloxacin

0.71 ± 0.12

2.44 ± 1.03

1.54 ± 0.31*

1.63 ± 0.06**

Acebutolol

0.19 ± 0.02

0.22 ± 0.02

0.56 ± 0.18*

1.05 ± 0.69**

Rhodamine 123

0.53 ± 0.04

1.54 ± 0.31*

0.81 ± 0.07*

2.23 ± 0.24*

Levofloxacin

0.74 ± 0.15

0.70 ± 1.01*

1.65 ± 0.08*

1.72 ± 0.05*

Acebutolol

0.12 ± 0.01

0.18 ± 0.02*

0.30 ± 0.05*

0.38 ± 0.12*

The amount of digoxin (μg) transported from the basolateral to the apical side tested for the in-vitro cornea models prior and after stimulation Verstraelen J., Reichl S. (2015) J Pharm Pharmacol 67:605-615 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

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Inhibition of P-Glycoprotein by drug interaction MDR1 – Rabbit (primary cell cultures and in-vivo model)

6α-methyl prednisolone, prednisolone, prednisone • increased intracellular accumulation of erythromycin in rabbit corneal epithelial cells in-vitro

• 2 h single-dose continuous infusion of erythromycin to the rabbit eye in absence and presence of corticosteroids  resulted in 2-3 fold higher ka, cmax and AUC

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• The eye, the cornea and transcorneal drug transport

• Development and characterization of an organotypic, threedimensional in-vitro cell culture model of human cornea for drug absorption studies as replacement for animal testing

• Expression of ABC transporters in animal and human corneal models in-vitro and ex-vivo • Expression of phase I and II metabolizing enzymes in corneal tissue • SLC Transporter - short review from the literature

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mRNA Expression of phase I und II enzymes CYP1A2 CYP2A6 CYP2B6 CYP2C8 CYP2C9 CYP2C19 CYP2D6 CYP2E1 CYP3A4 CYP3A5 GSTA4-4 GSTO1-1 GSTP1-1 NAT1 NAT2 SULT1A1 UGT1A1

Human Liver

Caco-2

Human Corneal Epithelium

HCE-T

HCK

HENC

Hemicornea Construct

+ + + + + + + + + + ◊ + ◊ ◊ ◊ ◊ +

◊ + + + + + ◊ + + + + + ◊ ◊ +

◊ ◊ ◊ ◊ + ◊ ◊ ◊ ◊ + + ◊ ◊ ◊

◊ ◊ ◊ ◊ + ◊ ◊ ◊ ◊ + + + ◊ + ◊

◊ ◊ + ◊ ◊ ◊ + + + + ◊

◊ ◊ + ◊ ◊ ◊ + + + ◊ +

◊ ◊ ◊ + ◊ ◊ ◊ ◊ + + + + ◊

Kölln C., Reichl S. (2012) J Ocul Pharm Ther 28:271-277 Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

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Cytochrome P450 Expression CYP2D6 Hemicornea Construct

Porcine Cornea

Rabbit Cornea

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Cytochrome P450 expression Cytochrome P450 Total Activity

CYP

NADPH 7-Ethoxycoumarin

7-Hydroxycoumarin (7HC)

CYP2D6 Activity

CYP2D6

NADPH Luciferin-ME EGE

D-Luciferin

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Cytochrome P450 Expression CYP 450 Total Activity

CYP2D6 Activity

(Substrate: 7-ethoxycoumarin)

(Substrate: Luciferin-ME EGE) 45 CYP2D6 activity per cornea or construct [fmol D-Luciferin ∙ min-1]

P450 activity activity per cornea or or construct construct [pmol 7HC 7HC ∙ min-1]

3 2.5 2,5 . 2 1.5 1,5 . 1 0.5 . 0,5 0

Hemicornea

Porcine Cornea

Rabbit Cornea

***

40 35 30 25 20 15 10 5 0

Hemicornea

Porcine Cornea

Rabbit Cornea

*** p < 0.001, t-test n=3, mean ± SD

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Glutathione Transferases Expression Hemicornea Construct

Porcine Cornea

Rabbit Cornea

GSTO1

GSTP1

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Glutathione Transferases Expression Glutathione Transferase Total Activity GST

-HCl

Glutathione (GSH)

1-chloro-2,4-dinitrobenzene

GSTP1 Activity GSTP1

Glutathione (GSH)

ethacrynic acid

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Glutathione Transferases Expression GSTO1 Activity GSTO1 GSTO1

H+ S-(4-nitrophenacyl)glutathione (4-NPG)

4-nitroacetophenone

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GST Total Activity (Substrate: 1-chloro-2,4-dinitrobenzene ) 200 160

140

50

GSTO1 Activity

45 50

(Substrate: 4-NPG)

40 45 35 40 30 35 25 30 20 25 15 20 10 15

5 10

120

0 5

100

0

**

80

60

14

40 20

0

Hemicornea

Porcine Cornea

Rabbit Cornea

** p < 0.01, t-test n≥3, mean ± SD

GSTP1 GSTP1 activity activity per per cornea cornea or construct or construct -1] -1] [nmol [nmol ∙ min ∙ min

GST activity per cornea or construct [nmol ∙ min-1]

180

GSTO1 GSTO1 activity activity per per cornea cornea or construct or construct -1] -1] [nmol [nmol ∙ min ∙ min

Glutathione Transferases Expression

14 12

Hemicornea Hemicornea

Porcine Cornea Porcine Cornea

Rabbit Cornea Rabbit Cornea

GSTP1 Activity (Substrate: ethacrynic acid)

** **

12 10 10 8 8 6 6 4

4 2 2 0 0

Hemicornea Hemicornea

Porcine Cornea Porcine Cornea

Rabbit Cornea Rabbit Cornea

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Summary – Part I What do we know? • organotypic and valid cell culture models of human cornea for drug absorption studies have been successfully established • expression patterns of efflux transporters seem to be quite different for human and animal cornea models (ex-vivo and in-vivo) • transfer of data obtained with rabbit corneas to human situation remains difficult • expression of ABC transporters could be induced in corneal cells by long-term exposure of transporter subtrates

But, what don’t we know yet? • Are efflux transporters functionally expressed in human cornea in-vivo? → Problem: Availability of sufficient human donor tissue • Could efflux transporters play a significant role for drug absorption and transcorneal transport after topical application to human eye? → Problem: In vivo data from human subjects are needed High drug concentration in ophthalmics (saturation?) Dynamic conditions on eye surface (fast dilution, drainage … resulting in short precorneal residence time) Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

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Dynamic Micro Tissue Engineering System (DynaMiTES) 5A

5B Inverse HC

Drive for the stirrer Upper TEER electrode Sampling point Top level Transwell®/ insert level Bottom level Lower TEER electrode Inlet and outlet

Figure 5: Engineering DynaMiTES; 5A: Engineering design;design 5B: First prototype

First prototype

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• The eye, the cornea and transcorneal drug transport

• Development and characterization of an organotypic, threedimensional in-vitro cell culture model of human cornea for drug absorption studies as replacement for animal testing

• Expression of ABC transporters in animal and human corneal models in-vitro and ex-vivo • Expression of phase I and II metabolizing enzymes in corneal tissue • SLC Transporter - short review from the literature

Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

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Oligopeptide Transporters PEPT1, 2 – Human (excised cornea and cell culture model), Rabbit mRNA level (+)

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Oligopeptide Transporters – PEPT1

Acyclovir

L-Valine Prodrug of Acyclovir

• In-vitro test using rabbit cornea • threefold higher permeability for L-Val-ACV than ACV • dipeptides, beta-lactam antibiotics and ACE inhibitors strongly inhibited the transport of L-Val-ACV Orlando October 29, 2015 | S. Reichl | AAPS Annual Meeting

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Amino Acid Transporters ASCT1 – Rabbit (excised cornea and cell culture), mRNA level (+), functionality level (+)

LAT1 – Rabbit (excised cornea and cell culture), mRNA level (+), functionality level (+); Human cornea, mRNA level (+)

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Amino Acid Transporters CAT1, 2 – Human (excised cornea, cell culture), mRNA level (+), protein level (+)

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Amino Acid Transporters

Acyclovir

γ-Glutamate Prodrug of Acyclovir

L- Tyrosine Prodrug of Acyclovir

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Amino Acid Transporters

Acyclovir (ACV)

γ-Glutamate Prodrug of Acyclovir (γ-Glu-ACV)

L- Tyrosine Prodrug of Acyclovir (Tyr-ACV)

• In-vitro test using rabbit cornea and primary rabbit cells

• γ-Glu-ACV transport was concentration-, energy- and sodium-dependent, and independent of pH; inhibited by neutral and cationic amino acids • Tyr-ACV was not recognized by this amino acid transporters

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Monocarboxylate transporters MCT1, 3, 4 – Human (excised cornea and cell culture), Rabbit cornea mRNA level (+), protein level (+), functionality level (+)

MCT1, 2, 4, 5 – Rabbit (primary cell culture), protein level (+), functionality level (+)

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Monocarboxylate transporters Rabbit (primary cell culture)

• ketoprofen uptake was time, temperature and pH dependent • ketoprofen uptake was significantly inhibited by various monocarboxylates and other NSAIDs and by MCT and/or organic anion transporter (OAT) inhibitors probenecid and p-aminohippurate

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Organic anion and cation transporters OCT1, 3; OCTN1, 2; OATP2B1 – Human (excised cornea and cell culture model), mRNA level (+)

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Vitamin transporters SMVT – Rabbit (excised cornea and cell culture), mRNA level (+), functionality level (+)

Riboflavin transport – Rabbit (excised cornea and cell culture), functionality level (+)

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Summary • ABC and SLC transporters are expressed in epithelium of human and animal corneas • Recent studies suggest that the expression patterns are species dependent • The impact of transport proteins on transcorneal drug absorption and disposition has to be further investigated under dynamic in vivo conditions

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Acknowledgment TU Braunschweig

Universität Düsseldorf

Matthias Hahne Gesa Grobe Jessica Verstraelen Christian Kölln Lucia Albrecht Anne Dolberg Nicole Beißner

Prof. Dr. Gerd Geerling Prof. Dr. Stefan Schrader Dr. Maria Borrelli

LU Hannover Dr. Nicola Hofmann

Universität Bremen

UKE Hamburg

PD Dr. Maria Engelke

Dr. Michaela Zorn-Kruppa Prof. Dr. Johanna Brandner

Across Barriers GmbH Dr. Eleonore HaltnerUkomadu Gustavo Guzman

TU Braunschweig Institut für Mikrotechnik Prof. Dr. Andreas Dietzel Dipl. Ing. Thomas Lorenz

Medizin. Hochschule Hannover Dr. Michael Meyer Prof. Dr. Rolf Winter

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