BASES TEORICAS DE LA INTERACCION FARMACO-RECEPTOR ...
Transcript of BASES TEORICAS DE LA INTERACCION FARMACO-RECEPTOR ...
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BASES TEORICAS DE LA INTERACCION FARMACO-RECEPTOR. TRATAMIENTO Y REPRESENTACION GRAFICA DE LOS DATOS (Segunda edición, Noviembre de 1992) Federico Gago Badenas
Departamento de Fisiología y Farmacología
Universidad de Alcalá de Henares
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Introducción
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2. Ensayos enzimáticos.
Vmáx VO Km
V
Km V = Vmáx/2:
(1) [S] + K
[S] V = V
m
máxO
(2) [S] = K 2; = 1 + [S]
Km
m
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V
1 + [S]
K
= V
1
máx
m
(3) V
1 +
[S]
1
V
K =
V
1
máxmáx
m
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(1)
(4) [EI]
[I] [E] = K I
K
[I] [E] = [EI]
I
(5) K
[I] + 1 [E] + [ES] = total][Enzima
I
(6)
[S] + K
[I] + 1 K
[S] V = V
I
m
máxI
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(1)
[I] = CI50, VO = 2 VI, (6):
[S] + K
[S] V =
[S] + K
CI + 1 K
[S] V 2
m
máx
I
50m
máx
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(1)
[I] = CI50, VO = 2 VI
KIE = KIES
(7) K
[S] + 1 K = CI
m
I50
(8)
K
[I] + 1[S]+
K
[I] + 1 K
[S] V = V
IESIE
m
máxI
[S] + K
[S] V =
K
CI + 1[S]+
K
CI + 1 K
[S] V 2 = V
m
máx
IES
50
IE
50m
máxI
(9)
K
[S] +
K
K
[S] + K = CI
IESIE
m
m50
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-1/Km
(9)
CI50 = KIES ó KIE, CI50 = KI (10)
KIES > KIE, Km
KIES < KIE, Km [S] >>
Km
(9)
Km/[S] << KIE/KIES
Km/[S] (11)
CI50 = KIES (13)
(7)
(11)
K
1 +
K
1
[S]
K
1 = CI
IESIE
m50
(12)
K
K +
[S]
K
K = CI
IES
IEm
IE50
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Vmáx 1 + [I]/KI
Km
1/Vmáx
-1/Km
CI50 = KI [S] >> Km
1 + [I]/KI
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KI 1/V
[I] KI
(1)
(3) V Vmáx
V V/[S]
(3) [S] [S]/V [S]
Figura 6 Figura 7
(14) [S]
V K - V = V mmáx
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3. Respuestas graduales y teoría ocupacional.
log [F1] - log [F2] (15)
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R F
k1 [F] [R] = k2 [FR] k1 k2
[FR] [R]
= K = [FR]
[R] [F] =
K
KD
1
2Constante de disociación en el equilibrio (16)
[Rt]
[Rt] = [FR] + [R] [R] = [Rt] - [FR]
KD
[FR] = [Rt]/2, KD = [F]
Ka = K1/K2
KAKD
(17) 1 - [FR]
]R[ [F] =
[FR]
[FR]) - ]R([ [F] = K
ttD
(18) FK + 1
FK =
F + K
F =r =
R
FR
a
a
Dt
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[F]
[F]por KD
E
F
Emáx
E(KD + [F]) = Emáx [F]
(20) K
[F] =
EE
E
Dmáx
[FR] ([KD]+ [F]) = [Rt] [F]
(19) ]R[
[FR] =
[F] + K
[F] =
E
E
tDmáx
(21) K
[F] =
[FR] - ]R[
[FR]
Dt
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log([FR]/([Rt]-[FR])) log[F]
log(E/Emáx-E) log[F]
Emáx = K3 [Rt]
[F] = [F]total
(19):
(1)
E = Emáx/2
KD/[F] + 1 = 2; KD = [F] (23)
(21)
(3)
(22) [F] + K
[F] E = E
D
máx
(24) E
1 +
[F]
1
E
K =
E
1 + [F]
K
= E
1
máxmáx
D
máx
D
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(19)
(19)
(25) ]R[
[FR] =
E
E
tmáx
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(22):
0 < < 1
α
(24)
1/[F] Emáx/E = 1/α
Emáx/E 1/[F] = -1/KD
(26) [F] + K
[F] =
E
E
Dmáx
(27) 1
+ [F]
1
K =
E
E Dmáx
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β
e
(28) K + [F]
[F] e =
]R[
[FR] e = S
Dt
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f
(29) K + [F]
[F] e f = (S) f =
E
E
Dmáx
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4. Respuestas equivalentes.
Kant
Kant
(28) Kant
Kant
1 + K [A] + K ][F
K ][F =
K ][F + 1
K ][F =Respuesta
anta2
a2
a1
a1
(28) 1 + K [A] = ][F
][F = d ant
1
2
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[FR]) - [AR] - ]R([ [A] K = [AR] tant
[AR] [A] K - [FR]) - ]R([ [A] K = [AR] anttant
[FR]) -] R([[A] K =[A]) K + (1[AR] tantant
[A] K + 1
[A] K [FR]) - ]R([ = [AR]
ant
antt
(29) (30)
[FR] K = [FR]) - [AR] - ]R([ [F] K 2t1
[FR]) - [AR] - ]R([ [F]
[FR] =
K
K = K
t2
1a
(29) [FR]) - [AR] - ]R([
[FR] =[F] K
t
a
(30) [FR]) - [AR] - ]R([
[AR] =[A] K
t
ant
K [A] [FR]) - ]R([
)K [A] + (1 [FR] =
[AR]
[FR] =
K [A]
K [F]
antt
ant
ant
a
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[F]2
[A]
[F]1 (17)
[FR]
[F]1 [A]
[F]2
)K [A] + (1 [FR] - ]R[
[FR] =
[FR]) - ]R([
)K [A] + (1 [FR] = K [F] ant
tt
anta
[FR] - ]R[
[FR] = K ][F
t
a1
(28) 1 + K [A] = d = ][F
][Fant
1
2
0 = [A] + K 1 = [A] K antant loglog
(31) pA = [A]- = K 2ant loglog
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x
d = 10, pA2 - pA10 = log 9 = 0.95
log(d-1) -log[A]
pA - pA = pA + pA- = 1) - (d
(32) K + ][A = 1) - (d
K ][A = 1 - d
x22x
antx
antx
log
logloglog
(33) K - [B] = 1) - (d Blogloglog
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β β
5. Ensayos de unión de ligandos.
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[LR]
log[L]
[LR]/[L] [LR]
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(21)
D
t
K
LRR =
L
LR, de donde:
[LR]/[L] [LR]
[Rt]= OC
[LR]= OB OBOCR .
(35)
k
(34) [LR] K
1 -
K
]R[ =
[L]
[LR]
dd
t
(35) [L] k + 1
[L] k =
]R[
[LR]
t
(36) [L] k + 1
[L] k n +
[L] k + 1
[L] k n =
]R[
[LR]
2
22
1
11
t
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n1 n2
(36)
(36) kd1 kd2
OP + OP = OP 21 .
(37) k + [L]
]R[ +
k + [L]
]R[ =
[L]
[LR]
d
2t
d
1t
21
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"n x m" n m
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6. Experimentos de desplazamiento de ligandos.
KI
(7)
(37) K
[L] + 1 K = CI
D
I50
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(38)
K
[L] + 1
CI = K
D
50I
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7. Receptores de reserva.
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β
β
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8. Respuestas cuantizadas: efectos de todo-o-nada.
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positivo) es )x - (x ; 0 = )x - (x( x2
(39) 1 - n
d = s
2
39
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dN e 2
1 = P N 1/2-
N
N
22
1
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N = -
N = 0
(40) sN x = x
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(41) n 2
s2 = ESDE50
(42) st DE = LC 50DE50
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9. Margen de seguridad. Evaluación del índice terapéutico.
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REFERENCIAS SELECCIONADAS.
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% % % % %
0 20 4,1584 40 4,7467 60 5,2533 80 5,8416
1 2,6737 21 4,1936 41 4,7725 61 5,2793 81 5,8779
2 2,9463 22 4,2278 42 4,7981 62 5,3055 82 5,9154
3 3,1192 23 4,2612 43 4,8236 63 5,3319 83 5,9542
4 3,2493 24 4,2937 44 4,8490 64 5,3585 84 5,9945
5 3,3551 25 4,3255 45 4,8743 65 5,3853 85 6,0364
6 3,4452 26 4,3567 46 4,8996 66 5,4125 86 6,0803
7 3,5242 27 4,3872 47 4,9247 67 5,4399 87 6,1264
8 3,5949 28 4,4172 48 4,9498 68 5,4677 88 6,1750
9 3,6592 29 4,4466 49 4,9749 69 5,4959 89 6,2265
10 3,7184 30 4,4756 50 5,0000 70 5,5244 90 6,2816
11 3,7735 31 4,5041 51 5,0251 71 5,5534 91 6,3408
12 3,8250 32 4,5323 52 5,0502 72 5,5828 92 6,4051
13 3,8736 33 4,5601 53 5,0753 73 5,6128 93 6,4758
14 3,9197 34 4,5875 54 5,1004 74 5,6433 94 6,5548
15 3,9636 35 4,6147 55 5,1257 75 5,6745 95 6,6449
16 4,0055 36 4,6415 56 5,1510 76 5,7063 96 6,7507
17 4,0458 37 4,6681 57 5,1764 77 5,7388 97 6,8808
18 4,0846 38 4,6945 58 5,2019 78 5,7722 98 7,0537
19 4,1221 39 4,7207 59 5,2275 79 5,8064 99 7,3263
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Tabla 2. Distribución t de Student.
grados 90% 95% 99%
de
libertad (P=0,1) (P=0,5) (P=0,01)
1 6,314 12,706 63,657
2 2,920 4,303 9,925
3 2,353 3,182 5,841
4 2,132 2,776 4,604
5 2,015 2,571 4,032
6 1,943 2,447 3,707
7 1,895 2,365 3,499
8 1,860 2,306 3,355
9 1,833 2,262 3,250
10 1,812 2,228 3,169
11 1,796 2,201 3,106
12 1,782 2,179 3,055
13 1,771 2,160 3,012
14 1,761 2,145 2,977
15 1,753 2,131 2,947
16 1,746 2,120 2,921
17 1,740 2,110 2,898
18 1,734 2,101 2,878
19 1,729 2,093 2,861
20 1,725 2,086 2,845
21 1,721 2,080 2,831
22 1,717 2,074 2,819
23 1,714 2,069 2,807
24 1,711 2,064 2,797
25 1,708 2,060 2,787
26 1,706 2,056 2,779
27 1,703 2,052 2,771
28 1,701 2,048 2,763
29 1,699 2,045 2,756
30 1,645 1,960 2,576
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PROBLEMA 1.
μ
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PROBLEMA 2.
β
μ
β
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PROBLEMA 3.
α
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PROBLEMA 4.
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PROBLEMA 5.
μ
μ
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PROBLEMA 6.
μ
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PROBLEMA 7.
Δ Δ
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INDICE DE MATERIAS. Pág.
1. Ecuación de Michaelis-Menten ................... 6
2. Ecuación y representación de Lineweaver-Burk.... 7,18
3. Inhibición competitiva.......................... 8
4. Inhibición no-competitiva ..................... 10
5. Ecuaciones de Cheng-Prusoff:
5.1. Inhibidores competitivos................... 9
5.2. Inhibidores no-competitivos................ 10-11
6. Representación de Dixon......................... 13
7. Representaciones de Eadie-Hoffstee y Hanes-Woolf 13
8. Potencia relativa de los fármacos............... 13
9. Aplicación de la ley de acción de masas......... 13-14
10. Ecuación de Clark............................... 15
11. Ecuación y representación de Hill............... 17
12. Eficacia y actividad intrínseca................. 18
13. Agonistas parciales o "dualistas"............... 19
14. Respuestas equivalentes (Gaddum)................ 22
15. Representación de Schild. Concepto de pA2....... 24-25
16. Ecuación y representación de Scatchard.......... 26-27
17. Técnica de Rosenthal para un sistema con más de
un receptor...................................... 29-30
18. Determinación de la CI50 y la Ki en un ensayo de
fijación ........................................ 31
19. Capacidad de reserva de los receptores........... 34
20. Sistemas de amplificación........................ 34
21. Respuestas cuantizadas todo-o-nada............... 37
22. Probits.......................................... 40
23. Cálculo de la DE50: método de Miller y Tainter... 41
24. Margen de seguridad. Evaluación del índice
terapéutico...................................... 43
29. Referencias seleccionadas........................ 44
26. Tabla de probits................................. 45
27. Distribución t de Student........................ 46
28. Ejercicios numéricos ............................ 47-51