MODEL Jeremy Sprouse 1 DDS Chethan Sampath 2 PhD Pandu R Gangula 2 PhD School of Graduate Studies and Research 1 Department of ODS amp Research 2 Meharry Medical College School of Dentistry Nashville TN 37208 ID: 927565
Download Presentation The PPT/PDF document "ROLE OF SEX HORMONES AND THEIR RECEPTORS..." is the property of its rightful owner. Permission is granted to download and print the materials on this web site for personal, non-commercial use only, and to display it on your personal computer provided you do not modify the materials and that you retain all copyright notices contained in the materials. By downloading content from our website, you accept the terms of this agreement.
Slide1
ROLE OF SEX HORMONES AND THEIR RECEPTORS ON GASTRIC NRF2 AND NEURONAL NITRIC OXIDE SYNTHASE FUNCTION IN AN EXPERIMENTAL HYPERGLYCEMIA MODEL
Jeremy Sprouse1, DDS, Chethan Sampath2, PhD, Pandu R Gangula2, PhDSchool of Graduate Studies and Research1, Department of ODS & Research2, Meharry Medical College, School of Dentistry, Nashville, TN 37208
Supplementary Data
Slide2β
-Actin 43 kD
Fig. 3 A
nNOS
α
155
kD
+ICI 182780
NG
+ICI 182780
+ ru-486 (100
nM
)
+ ru-486 (100
nM
)
+ICI 182780
NG
+ICI 182780
+ ru-486 (100
nM
)
+ ru-486 (100
nM
)
Slide3Fig. 3 B - C
Er α 67
kD
+ICI 182780
NG
+ICI 182780
+ ru-486 (100
nM
)
+ ru-486 (100
nM
)
Nrf2 57
kD
+ICI 182780
NG
+ICI 182780
+ ru-486 (100
nM
)
+ ru-486 (100
nM
)
+ICI 182780
NG
+ICI 182780
+ ru-486 (100
nM
)
+ ru-486 (100
nM
)
β
-Actin 43
kD
Slide4Fig. 3 D-E
HO-1 32 kD
β
-Actin 43
kD
ER
β
57
kD
+ICI 182780
NG
+ICI 182780
+ ru-486 (100
nM
)
+ ru-486 (100
nM
)
+ICI 182780
NG
+ICI 182780
+ ru-486 (100
nM
)
+ ru-486 (100
nM
)
+ICI 182780
NG
+ICI 182780
+ ru-486 (100
nM
)
+ ru-486 (100
nM
)
Slide5Fig. 6A
nNOS α
155
kD
NG
50
mM
Mannitol
3
0
mM
HG
50
mM
HG
NG
50
mM Mannitol
30 mM HG
50
mM HG
Slide6Fig. 6B
β-Actin 43
kD
Nrf2 57
kD
NG
50
mM
Mannitol
3
0
mM
HG
50
mM
HG
NG
50
mM
Mannitol
3
0 mM HG
50 mM HG
Slide7Fig. 6C
β-Actin 43
kD
Er
α
67
kD
NG
50
mM
Mannitol
3
0
mM
HG
50
mM HG
NG
50
mM Mannitol
3
0 mM HG
50 mM HG
Slide8nNOS
α 155 kD
Fig. 6 D
β
-Actin 43
kD
HG
NG
HG + PPT (10
nM
)
HG + PPT (100
nM
)
HG + DPN (1.0
μ
M)
HG + DPN (10
μ
M)
HG
NG
HG + PPT (10
nM)
HG + PPT (100
nM
)
HG + DPN (1.0
μ
M)
HG + DPN (10
μ
M)
Slide9Fig. 6 E-F
β-Actin 43 kD
HG
NG
HG + PPT (10
nM
)
HG + PPT (100
nM
)
HG + DPN (1.0
μ
M)
HG + DPN (10 μM)
ER
α
67 kD
HG
NG
HG + PPT (10
nM
)
HG + PPT (100 nM)
HG + DPN (1.0 μM)
HG + DPN (10
μ
M)
Nrf2
5
7
kD
HG
NG
HG + PPT (10
nM
)
HG + PPT (100
nM
)
HG + DPN (1.0
μ
M)
HG + DPN (10
μ
M)
Slide10Fig. 6 G-H
Er
β
57
kD
HO-1 32
kD
β
-Actin 43
kD
HG
NG
HG + PPT (10
nM
)
HG + PPT (100
nM
)
HG + DPN (1.0
μ
M)
HG + DPN (10 μM)
HG
NG
HG + PPT (10
nM
)
HG + PPT (100
nM
)
HG + DPN (1.0
μ
M)
HG + DPN (10
μ
M)
HG
NG
HG + PPT (10
nM
)
HG + PPT (100
nM
)
HG + DPN (1.0
μ
M)
HG + DPN (10
μ
M)
Slide11Fig. 7A
β-Actin 43
kD
nNOS
α
155
kD
+E
2
10
nM
+P
4
100
nM
NG
50
mM
Mannitol
30 mM HG
50
mM HG
+E2 100 nM
+P
4
1000
nM
+E
2
10nM P
4
100
nM
+E
2
10 nM+P
4
100
nM
+E
2
10
nM
+P
4
100
nM
NG
50
mM
Mannitol
3
0
mM
HG
50
mM
HG
+E
2
100
nM
+P
4
1000
nM
+E
2
10nM P
4
100
nM
+E
2
10 nM+P
4
100
nM
Fig. 7B
β
-Actin 43
kD
Nrf2 57
kD
+E
2
10
nM
+P
4
100
nM
NG
50
mM
Mannitol
3
0 mM HG
50 mM HG
+E2
100 nM
+P
4
1000
nM
+E
2
10nM P
4
100
nM
+E
2
10 nM+P
4
100
nM
+E
2
10
nM
+P
4
100
nM
NG
50
mM
Mannitol
3
0
mM
HG
50
mM
HG
+E
2
100
nM
+P
4
1000
nM
+E
2
10nM P
4
100
nM
+E
2
10 nM+P
4
100
nM