The production of arachidonic acid metabolites in rat testis
Biosynthesis of 5-androstenediol by human testis in vitro
13
18] BIOSYNTHESIS OF 5-ANDROSTENEDIOL BY HUMAN TESTIS IN VITRO J.M. Rosner and ~I. C. Macome Instituto Latinoamericano de Fisiolog~'a de la Reproducci6n (ILAFIR) Casilla de Correo 10, San Miguel, Pcia. de Bs. As. Argentina Received March Ii, 1969 ABSTRACT The biosynthesis of androstenediol by seven normal human testes incubated in vitro with labeled pregnenolone and dehydro- epiandrosterone is demonstrated in all the cases. When equal amounts of 7a( -3H-dehydroepiandrosterone and 17-~ hydroxyprogesterone-4-14C were incubated with normal testes the 3,H/14C ratio was higher in testosterone than androstene- dione (p~' 0.01) . This suggests the existence of a pathway to testosterone production bypassing androstenedione. By incubating biosynthesized androstenediol- 14C with normal human testes its conversion to testosterone in vitro is demonstrated. The biological significance of these results is discussed. INTRODUCTION The existence of two main pathways for the biosynthesis of steroids by the testis has been established in many species including man (I) (g) (3) (4) (5). The ~ 5-3//~ ol pathway through pregnenolone, 17~ OH- hydroxy-pregnenolone and dehydroepiandrosterone has lately received a great deal of attention, and in the rabbit and monkey it has been demonstrated that dehydroepiandrosterone is further converted to androstenediol, another steroid with the ~5-3/~ ol configuration (5) (6) (7).
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Transcript of Biosynthesis of 5-androstenediol by human testis in vitro
18]
BIOSYNTHESIS OF 5 - A N D R O S T E N E D I O L BY
HUMAN T E S T I S IN V I T R O
J . M . R o s n e r and ~I. C. M a c o m e
I n s t i t u t o L a t i n o a m e r i c a n o de Fis io log~ 'a de la R e p r o d u c c i 6 n ( I L A F I R ) C a s i l l a de C o r r e o 10, San Migue l , P c i a . de Bs . As . A r g e n t i n a
Received March Ii, 1969
A B S T R A C T
The b i o s y n t h e s i s o f a n d r o s t e n e d i o l by s e v e n n o r m a l h u m a n t e s t e s i n c u b a t e d in v i t r o w i t h l a b e l e d p r e g n e n o l o n e and d e h y d r o - e p i a n d r o s t e r o n e is d e m o n s t r a t e d in a l l the c a s e s .
W h e n e q u a l a m o u n t s of 7a( - 3 H - d e h y d r o e p i a n d r o s t e r o n e and 1 7 - ~ h y d r o x y p r o g e s t e r o n e - 4 - 1 4 C w e r e i n c u b a t e d w i th n o r m a l t e s t e s the 3 , H / 1 4 C r a t i o w a s h i g h e r in t e s t o s t e r o n e than a n d r o s t e n e - d ione (p~' 0 . 0 1 ) . T h i s s u g g e s t s the e x i s t e n c e of a p a t h w a y to t e s t o s t e r o n e p r o d u c t i o n b y p a s s i n g a n d r o s t e n e d i o n e . By i n c u b a t i n g b i o s y n t h e s i z e d a n d r o s t e n e d i o l - 14C wi th n o r m a l h u m a n t e s t e s i t s c o n v e r s i o n to t e s t o s t e r o n e in v i t r o is d e m o n s t r a t e d . The b i o l o g i c a l s i g n i f i c a n c e of t h e s e r e s u l t s is d i s c u s s e d .
I N T R O D U C T I O N
The e x i s t e n c e of two m a i n p a t h w a y s f o r the b i o s y n t h e s i s
of s t e r o i d s b y the t e s t i s ha s b e e n e s t a b l i s h e d in m a n y s p e c i e s
including man (I) (g) (3) (4) (5).
The ~ 5-3/ /~ ol p a t h w a y t h r o u g h p r e g n e n o l o n e , 1 7 ~ O H -
h y d r o x y - p r e g n e n o l o n e and d e h y d r o e p i a n d r o s t e r o n e ha s l a t e l y r e c e i v e d
a g r e a t d e a l of a t t en t i on , and in the r a b b i t and m o n k e y it h a s b e e n
d e m o n s t r a t e d tha t d e h y d r o e p i a n d r o s t e r o n e is f u r t h e r c o n v e r t e d to
a n d r o s t e n e d i o l , a n o t h e r s t e r o i d wi th the ~ 5 - 3 / ~ ol c o n f i g u r a t i o n (5)
(6) (7).
182 S T E R 0 I D S 15:1
The b i o s y n t h e s i s of 5 - a n d r o s t e n e d i o l b y n o r m a l and a b n o r m a l
h u m a n t e s t e s h a s b e e n s c a r c e l y e x p l o r e d and c o n s t i t u t e s a m a t t e r
of c o n t r o v e r s y (8) (9) (10).
F u r t h e r m o r e , i t has no t y e t b e e n d e m o n s t r a t e d tha t
a n d r o s t e n e d i o l ' c a n be c o n v e r t e d to t e s t o s t e r o n e by n o r m a l o r a b n o r m a l
h u m a n t e s t e s b e c a u s e no t i m e e x p e r i m e n t s o r i n c u b a t i o n s w i th
a n d r o s t e n e d i o l as s u b s t r a t e h a v e b e e n p e r f o r m e d .
In th i s p a p e r we h a v e i n c u b a t e d s e v e n n o r m a l t e s t e s w i th l a b e l e d
p r e g n e n o l o n e and d e h y d r o e p i a n d r o s t e r o n e and the p r o d u c t i o n of
a n d r o s t e n e d i o l w a s d e m o n s t r a t e d in e v e r y one of the p a t i e n t s and,
w h e n h u m a n t e s t e s w e r e i n c u b a t e d wi th b i o s y n t h e s i z e d a n d r o s t e n e d i o l
the p r o d u c t i o n of t e s t o s t e r o n e f r o m a n d r o s t e n e d i o l w a s shown.
MATERIAL AND METHODS
S e v e n h i s t o l o g i c a l l y n o r m a l h u m a n t e s t e s o b t a i n e d f r o m 57 to 72 y e a r s old o r c h i e c t o m i z e d p a t i e n t s due to p r o s t a t i c c a r c i n o m a w e r e p r e p a r e d fo r be ing h o m o g e n i z e d by r e m o v i n g fa t , t u n i c a a l b u g i n e a , e p i d i d y m u s and e p i d i d y m a l fa t pad . The t e s t e s w e r e k e p t on i ce and l e s s than an h o u r l a t e r t h e y w e r e i n c u b a t e d . The t e s t e s w e r e w e i g h e d , cu t in s m a l l p i e c e s , h o m o g e n i z e d in a L o u r d e s M M - I A m e d h a n i c a l h o m o g e n i z e r in the cold . S u f f i c i e n t 0. 1 M p h o s p h a t e b u f f e r , pH 7 . 4 w a s a d d e d to m a k e a 10 % c o n c e n t r a t i o n of the h o m o g e n a t e .
P r e g n e n o l o n e - 4 - 14C s p e c i f i c a c t i v i t y 50 m C i / m M , d e h y d r o - e p i a n d r o s t e r o n e - 4 14C s p e c i f i c a c t i v i t y 50 m C i / m M , d e h y d r o e p i - a n d r o s t e r o n e 7 ~ 3 H s p e c i f i c a c t i v i t y 10 C i / m M , 1 7 ~ h y d r o x y - p r o g e s t e r o n e - 4 - 14C s p e c i f i c a c t i v i t y 50 m C i / m M ; and a n d r o s t e n e d i o l 14C s p e c i f i c a c t i v i t y 35 m C i / m M w e r e e m p l o y e d as s u b s t r a t e s , in the fo l lowing e x p e r i m e n t s .
The s u b s t r a t e s w e r e c h r o m a t o g r a p h e d in W h a t m a n p a p e r ~ 1 in s y s t e m E and r e c r y s t a l l i z e d to c o n s t a n t s p e c i f i c a c t i v i t y . Whole t e s t e s h o m o g e n a t e s w e r e u s e d in e a c h i n c u b a t i o n f l a s k and A T P (6 .56 , ,u m o l e s ) . N A D P (3 .60 .,~ m o l e s ) NAD (3 .77 ~ m o l e s ) g l u c o s e - 6 - p h o s p h a t e (9 .63 ,lu m o l e s and 50 ,~ag g l u c o s e - 6 - p h o s p h a t e d e h y d r o g e n a s e w e r e a d d e d to
Jan. 1970 s T E R O I D S 183
e a c h f l a s k . The f i na l v o l u m e of 3 m l w a s i n c u b a t e d fo r two h o u r s a t 37 ° C u n d e r a i r in a Dubnoff m e t a b o l i c s h a k e r . The i n c u b a t i o n w a s s t o p p e d by the a d d i t i o n of 5 ~ of d i e t h y l e t h e r .
The h o m o g e n i z e d t i s s u e was e x t r a c t e d fou r t i m e s w i t h 30 m l of d i e t h y l e t h e r . The c o m b i n e d e t h e r e x t r a c t s w e r e w a s h e d t h r e e t i m e s wi th Na OH and wi th w a t e r un t i l n e u t r a l i t y . The w a s h e d e t h e r e x t r a c t was f i l t r a t e d o v e r s o d i u m s u l p h a t e and b r o u g h t to d r y n e s s u n d e r r e d u c e d p r e s s u r e .
The r a d i a c t i v i t y of the s t e r o i d s a m p l e was coun t ed in a l i qu id s c i n t i l l a t i o n c o u n t e r , P a c k a r d I n s t r u m e n t s Co. Model 314 X, u s i n g 10 m l s c i n t i l l a t i o n f lu id con t a in ing 4 g Z. 5 d e p h e n y l o x a z o l e and 4o mg p-bis Z-15-Z S phenyloxazolyl)) ben-one / 1 to luene The e f f i c i e n c y f o r 4 C w a s 67% and fo r 3H was 38 %. When a double i s o t o p e t e c h n i q u e was u s e d the e f f i c i e n c y f o r 14C was 45 % and fo r 3H was 16 %.
The S t u d e n t ' s T'tv' t e s t was u s e d fo r the s t a t i s t i c a l a n a l y s i s of the r e s u l t s .
EXPERIMENTS
1) Incuba t i on wi th p r e g n e n o l o n e = 4 - 1 4 C : to the d r y e x t r a c t w e r e a d d e d 100 jug e a c h of p r o g e s t e r o n e , a n d r o s t e n e d i o n e , t e s t o s t e r o n e and
a n d r o s t e n e d i o l ; the e x t r a c t was app l i ed to W h a t m a n p a p e r ~ 1 and c h r o m a t o g r a p h e d in s y s t e m B fo r t h r e e h o u r s . The s t r i p s w e r e e x a m i n e d fo r r a d i a c t i v i t y in a N u c l e a r Ch i cago A c t i g r a p h III and the c a r r i e r s t a n d a r d s w e r e l o c a t e d by an u l t r a v i o l e t s c a n n e r . Z) I n c u b a t i o n w i t h d e h y d r o e p i a n d r o s t e r o n e - 4 - 14C: the p r o c e d u r e w a s p e r f o r m e d e x a c t l y as in E x p e r i m e n t 1, e x c e p t t h a t no p r o g e s t e r o n e s t a n d a r d was added . 3) I n c u b a t i o n wi th 7 ~ - 3 H d e h y d r o e p i a n d r o s t e r o n m and 17 ~ - h y d r o x y -
p r o g e s t e r o n e - 14C ; h u m a n t e s t e s h o m o g e n a t e s w e r e i n c u b a t e d w i t h 1 #ug e a c h of 7 ~ - 3 H - d e h y d r o e p i a n d r o s t e r o n e and 1 7 ~ - h y d r o x y - p r o g e s t e r o n e - 4 - 14(3.
E n o u g h u n l a b e l e d d e h y d r o e p i a n d r o s t e r o n e w a s a d d e d to the t r i t i a t e d one to a c h i e v e a s p e c i f i c a c t i v i t y of 1 ~t~g= 3 .8 X 106 d . p . m .
The i n i t i a l r a t i o of the s u b s t r a t e a d d e d to the i n c u b a t i o n w a s 11.5 3H/14(3. 4) I ncuba t i on w i t h 5 = a n d r o s t e n e d i o l 14(3 : by i ncuba t i ng r a b b i t t e s t e s
w i t h d e h y d r o e p i a n d r o s t e r o n e - 4 - 1 4 C i t was o b t a i n e d b i o s y n t h e s i z e d 5- a n d r o s t e n e d i o l 14C t h a t was p u r i f i e d by p a p e r c h r o m a t o g r a p h y in s y s t e m s D; A ; F and E.
The s p e c i f i c a c t i v i t y of the b i o s y n t h e s i z e d a n d r o s t e n e d i o l 14 C w a s 35 m C i / m M and was d e t e r m i n e d by gas C h r o m a t o g r a p h y u s i n g a
184 S T E R O I D S 15:1
P a c k a r d gas c h r o m a t o g r a p h wi th a f r a m e i o n i z a t i o n d e t e c t o r .and coun t ing the r a d i a c t i v i t y in a P a c k a r d l iqu id s c i n t i l l a t i o n C o u n t e r .
A f t e r e s t a b l i s h i n g i ts r a d i o c h e m i c a l p u r i t y by r e c r y s t a l l i z a t i o n to c o n s t a n t s p e c i f i c a c t i v i t y the p u r i f i e d 1 4 C - a n d r o s t e n e d i o l was i n c u b a t e d w i t h h u m a n t e s t e s , to p r o v e i f a n d r o s t e n e d i o l was c o n v e r t e d to t e s t o s t e r o n e .
T A B L E I
Composition of C h r o m a t o g r a p h i c S y s t e m s Used
S y s t e m Compositionby v o l u m e R e f e r e n c e
'A B C D E F
H e x a n e / F o r m a m i d e 13 H e x a n e - B e n z e n e ( 1 : 1 ) / F o r m a m i d e 13 H e p t a n e / F o r m a m i d e 13 T o l u e n e / P r o p y l e n e g l y c o l 13 C y c l o h e x a n e - m e t h a n o l - w a t e r ( 100:100:10) 14 Bush "A" ( Petroleum-ether-methanol- w a t e r 100: 8 0 : 2 0 ) 15
IDENTIFICATION OF FORMED COMPOUNDS
A n d r o s t e n e d i o l
The m a t e r i a l behav ing l ike t e s t o s t e r o n e and a n d r o s t e n e d i o l in the f i r s t c h r o m a t o g r a p h y was c h r o m a t o g r a p h e d in s y s t e m D f o r f o u r hours .
A redloactive area, that had the same Rf as the authentic a n d r o s t e n e d i o l , w a s found. The a n d r o s t e n e d i o l s t a n d a r d was l o c a l i z e d by expos ing the c h r o m a t o g r a p h i c s t r i p s to iod ine v a p o r s .
The m a t e r i a l behav ing l ike a n d r o s t e n e d i o l was c h r o m . a t o g r a p h e d in s y s t e m s E and F f o r f ive and t e n h o u r s r e s p e c t i v e l y .
An a l i q u o t of th i s m a t e r i a l w a s a c e t y l a t e d wi th a c e t i c a n h y d r i d e in p y r i d i n e ( 1:5, V:V) and c h r o m a t o g r a p h e d in s y s t e m A fo r 3½ h o u r s , A u t h e n t i c a n d r o s t e n e d i o l d i a c e t a t e was c h r o m a t o g r a p h e d in a s e p a r a t e s t r i p , and had i d e n t i c a l Rf as the unknown s a m p l e .
The m a t e r i a l behav ing l ike a n d r o s t e n e d i o l d i a c e t a t e was e lu t ed , e v a p o r a t e d to d r y n e s s and d i s s o l v e d in 1 m l of 0 .1 N e t h a n o l i c s o d i u m h y d r o x y d e and i n c u b a t e d a t 37 ° C f o r 30 m i n u t e s .
F i v e m l of w a t e r w e r e a d d e d and e x t r a c t e d wi th f ive v o l u m e s of e t h y l a c e t a t e . The e t h y l a c e t a t e e x t r a c t was c h r o m a t o g r a p h e d in s y s t e m C f o r t w e l v e h o u r s , and b e h a v e d l ike a n d r o s t e n e d i o l s t a n d a r d . The m a t e r i a l behav ing l ike a n c l r o s t e n e d i o l was r e c r y s t a l l i z e d to c o n s t a n t s p e c i f i c a c t i v i t y f r o m t h r e e d i f f e r e n t s o l v e n t s .
Jan. 1970 s T E R O I D S 185
T e s t o s t e r o n e
A f t e r the c h r o m a t o g r a p h y in s y s t e m B w h e r e t e s t o s t e r o n e has the s a m e Rf as a n d r o s t e n e d i o l , the a r e a was c h r o m a t o g r a p h e d in s y s t e m D f o r fou r h o u r s . The r a d i a c t i v e a r e a c o r r e s p o n d i n g to the a d d e d t e s t o s t e r o n e s t a n d a r d w a s r e c h r o m a t o g r a p h e d in s y s t e m F f o r e igh t h o u r s . An a l i quo t was a c e t y l a t e d and c h r o m a t o g r a p h e d in s y s t e m A f o r t h r e e h o u r s . A n o t h e r a l i quo t was o x i d i z e d w i t h 0. Z rnl 0 .5 % c h r o m i u m t r i o x i d e in 95 % g l a c i a l a c e t i c a c i d fo r two h o u r s in the d a r k a t r o o m t e m p e r a t u r e . The o x i d i z e d m a t e r i a l was c h r o m a t o g r a p h e d in s y s t e m A f o r t w e n t y f o u r h o u r s and i t b e h a v e d l ike a u t h e n t i c a n d r o s t e n e d i . o n e s t a n d a r d c h r o m a t o g r a p h e d in a s e p a r a t e s t r i p .
A n o t h e r a l i quo t of the m a t e r i a l behav ing l ike t e s t o s t e r o n e w a s r e c r y s t a l l i z e d to c o n s t a n t s p e c i f i c a c t i v i t y f r o m at l e a s t t h r e e d i f f e r e n t s o l v e n t s un t i l the s p e c i f i c a c t i v i t y did not v a r y m o r e t h a n 5 90 b e t w e e n two r e c r y s t a l l i z a t i o n s .
Androstenedione
M a t e r i a l b e h a v i n g l ike d e h y d r o e p i a n d r o s t e r o n e and a n d r o s t e n e d i o n e in s y s t e m B was r e c h r o m a t o g r a p h e d in s y s t e m F f o r e igh t h o u r s and the a n d r o s t e n e d i o n e a r e a was l o c a t e d by u l t r a v i o l e t a b s o r p t i o n and the d e h y d r o e p i a n d r o s t e r o n e zone by iod ine v a p o r s . The m a t e r i a l hav ing the s a m e Rf as a u t h e n t i c a n d r o s t e n e d i o n e was a c e t y l a t e d and r e c h r o m a t o g r a p h e d in s y s t e m A f o r t h r e e h o u r s w h e r e it b e h a v e d as a n d r o s t e n e d i o n e s t a n d a r d . Th i s m a t e r i a l was o x i d i z e d and c h r o m a t o g r a p h e d in s y s t e m D f o r 3½ h o u r s and had the s a m e Rf as a u t h e n t i c a n d r o s t e n e d i o n e .
Th i s m a t e r i a l w a s r e c r y s t a l l i z e d to c o n s t a n t s p e c i f i c a c t i v i t y f r o m t h r e e d i f f e r e n t s o l v e n t s un t i l the s p e c i f i c a c t i v i t y d id not change m o r e t han 5 90 b e t w e e n two r e c r y s t a l l i z a t i o n s .
RESULTS AND DISCUSSION
The " in vitro" and " in vivo" data on androstenediol
biosynthesis by human testes are very few and controversial,
because the isolation of androstenediol from normal and pathological
testes was obtained by some researchers and not by others (8) (9) (I0)
(11).
186 S T E R 0 1 D S 15:1
R E C R Y S T A L L I Z A T I O N TO CONSTANT S P E C I F I C ACTIVITY
TABLE II ANDR OS TENE DIOL
C r y s t a l l i z a t i o n No. Solven t Spec i f i c activity (dpm/m~) Mother liquor crystals
1 E t h a n o l 1, 123 1, 115 Z A c e t o n e 897 903 3 M e t h a n o l 9 Z5 915
F i f t e e n m i l l i g r a m s of a u t h e n t i c a n d r o s t e n e d i o l w e r e a d d e d to the unknown p r e v i o u s to c r y s t a l l i z a t i o n .
T A B L E III TES T OS TER ON E
Crystallization No. Solven t Spec i f i c a c t i v i t y M o t h e r l i quo r
( d p m / m $ ) c r y s t a l s
1 M e t h a n o l 1 ,543 1,429 2 A c e t o n e I, 482 1 ,470 3 E t h a n o l 1 ,489 1,477
F o u r t e e n m i l l i g r a m s of a u t h e n t i c t e s t o s t e r o n e w e r e a d d e d to the unknown p r e v i o u s to c r y s t a l l i z a t i o n .
T A B L E IV ANDROS TENEDIONE
C r y s t a l l i z a t i o n No. So lven t Spec i f i c a c t i v i t y ( d p m / m ~ ) M o t h e r l i q u o r c r y s t a l s
1 M e t h a n o l 1 ,770 1,253 Z Hexane - c h l o r o -
f o r m 3:1 1 ,514 1, 102 3 E t h a n o l 1, 109 1, 115 4 M e t h a n o l 1, 10Z 994
Ten m i l l i g r a m s of a u t h e n t i c a n d r o s t e n e d i o n e w e r e added to the unknown p r e v i o u s to c r y s t a l l i z a t i o n .
Jan. 1970 s T E R O I D S 187
In th i s r)aper it is d e m o n s t r a t e d t ha t a n d r o s t e n e d i o l was
p r o d u c e d " in v i t r o " in s e v e n out of s e v e n n o r m a l t e s t e s i n c u b a t e d
e i t h e r wi th l a b e l e d p r e g n e n o l o n e or d e h y d r o e p i a n d r o s t e r o n e . (Table
V and VI).
When equa l a m o u n t s of 7o<3 H - d e h y d r o e p i a n d r o s t e r o n e and
17- ~( - h y d r o x y p r o g e s t e r o n e - 4 - 14C w e r e i n c u b a t e d wi th n o r m a l
t e s t e s and the 3 H / 1 4 C r a t i o d e t e r m i n e d in a n d r o s t e n e d i o n e and
t e s t o s t e r o n e , h i g h e r r a t i o s of 3 H t o 14C w e r e found in the l a t t e r
s t e r o i d (p~0.01).
This e x p e r i m e n t a c t u a l l y i nvo lved t h r e e p a t h w a y s to t e s t o s t e -
rone .
1- 1 7 ~ - h y d r o x y p r o g e s t e r o n e - ~ a n d r o s t e n e d i o n e - ) t e s t o s t e r o n e .
Z- d e h y d r o e p i a n d r o s t e r o n e - ~ a n d r o s t e n e d i o n e - ) t e s t o s t e r o n e .
3- d e h y d r o e p i a n d r o s t e r o n e - 9 a n d r o s t e n e d i o l - ) t e s t o s t e r o n e .
If a n d r o s t e n e d i o n e would be an o b l i g a t o r y i n t e r m e d i a t e f o r
the b i o s y n t h e s i s of t e s t o s t e r o n e f r o m d e h y d r o e p i a n d r o s t e r o n e as i t
is f r o m 1 7 - ~ ( - h y d r o x y p r o g e s t e r o n e the 3 H / 14C r a t i o shou ld be the
s a m e in a n d r o s t e n e d i o n e than in t e s t o s t e r o n e .
The ob t a ined h i g h e r r a t i o s of 3 H / 14C in t e s t o s t e r o n e than in
a n d r o s t e n e d i o n e only s u g g e s t the e x i s t e n c e of a n o t h e r p a t h w a y to
t e s t o s t e r o n e b y p a s s i n g a n d r o s t e n e d i o n e , but b r i n g s no e v i d e n c e to
the r e l a t i v e i m p o r t a n c e of t h e s e p a t h w a y s .
188 S T E R O I D S 15:1
A s t h e p r e s e n c e of a n d r o s t e n e d i o l ]~y i t s e l f i s no t s u f f i c i e n t .
e v i d e n c e t o p r o v e t h a t t h i s s t e r o i d i s a c t u a l l y c o n v e r t e d t o t e s t o s t e r o n e
b i o s y n t h e s i z e d a n d r o s t e n e d i o l w a s i n c u b a t e d w i t h h u m a n t e s t e s " in
v i t r o " a n d t h e p r o d u c t i o n of t e s t o s t e r o n e w a s d e m o n s t r a t e d ( T a b l e V I I I )
Yamayi et al. (12) have recently identified androstenediol in canine
spermatic vein blood and demonstrated its increase after LH
( l u t e i n i z i n g h o r m o n e ) a d m i n i s t r a t i o n .
The present "in vitro" results could not be extrapolated to
" in vivo" situations, they only indicate the presence of the necessary
enzymes for the biosynthesis of androstenediol and its conversion to
testosterone. Further investigations are being done in human males
" in vivo" to see if these findings could be reproduced under these
circumstances and time experiments are performed " in vitro" to
establish the importance of the conversion of androstenediol to
testosterone.
Jan. 1970 s T E R O I D S 189
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Jan. 1970 s T E R O I D S 191
TAB L E VII
3- INCDBATION OF HUMAN TESTIS HOMOGENATES* WITH 7 ¢~ 3 H DEH3 DROEPIANDROSTERONE AND 17 o~ - H~/DROX ~] - PROGESTERONE-4- 14 C
P a t i e n t No. T e s t o s t e r o n e *** A n d r o s t e n e d i o n e
d p m 3 H 3H/14C ra t i o** d p m 3H 3 H / 1 4 C r a t i o** d p m 14C d p m 14C
1 760,000_ 15 247,900__ 4 51 ,300 58 ,300
843 000 168,800 ' = 23 : 5
37,000 35,800
3 719 ,000 557 ,000 15 25?600 = 28 37 ,300 =
4 745,000 = 23 102,700 32,400 22,300
5 790,.000__ 16 89,00______~0__ 3 50,900 33,700
6 830,000= 30 596,600= 27,800 43,200
14
7 676 ,000 22 506 ,600 31,000: 84,700" 6
* F i v e h u n d r e d m i l l i g r a m s of t e s t i c u l a r t i s s u e , 1 ug d e h y d r o - e p i a n d r o s t e r o n e - 7 ¢ ~ - 3 H , and 1 ug 1 7 - ~ 4 - h y d r o x y p r o g e s t e r o n e - 4 - 1 4 C w e r e u s e d in e a c h i n c u b a t i o n f l a s k . ** The i n i t i a l 3H / 1 4 C r a t i o was 11.5 *** The d i f f e r e n c e in the 3 H / 1 4 C r a t i o s b e t w e e n t e s t o s t e r o n e and a n d r o s t e n e d i o n e was s i g n i f i c a n t for p < 0 . 0 1 .
192 S T E R O I D S 15:1
T A B L E VII I
4 - I N C U B A T I O N O F H U M A N T E S T I S H O M O G E N A T E S * W I T H B I O - S Y N T H E S I Z E D - 1 4 C A N D R O S T E N E D I O L ( S . A . 35 m C i / m M )
P R O D U C T I O N O F T E S T O S T E R O N E **
P a t i e n t No . T e s t o s t e r o n e 1 15 2 8 B 11 4 19 5 27 6 17 7 6
* T h r e e h u n d r e d m i l l i g r a m s of t e s t i c u l a r t i s s u e a n d 5X 10 4 d p m of 14 C a n d r o s t e n e d i o l w e r e u s e d in e a c h f l a s k . ** R e s u l t s a r e e x p r e s s e d in d p m / m g t i s s u e .
* T h e f o l l o w i n g t r i v i a l n a m e s a n d a b b r e v i a t i o n s w e r e u s e d in t h i s p a p e r : P r o g e s t e r o n e : 4 - p r e g n e n e , 3 - 2 0 , d i o n e .
P r e g n e n o l o n e : 3 ~ - h y d r o x y - 5 - p r e g n e n e - 2 0 one .
17 ¢ ~ - h y d r o x y - p r o g e s t e r o n e : 17 ~ h y d r o x y , 4 - D r e g n e n e , 3 - 2 0 , d i o n e
D e h y d r o e p i a n d r o s t e r o n e : 3 /3 - h y d r o x y - 5 - a n d r o s t e n - 17 o n e .
A n d r o s t e n e d i o l : 5 - a n d r o s t e n e - 3 / ~ , 17 ] ~ - d i o l .
T e s t o s t e r o n e : 17 //3 - h y d r o x y - 4 - a n d r o s t e n - 3 one .
A n d r o s t e n e d i o n e : 4 - a n d r o s t e n b B , 17 d i o n e .
N A D : N i c o t i n a m i d e A d e n i n e D i n u c l e o t i d e .
N A D P : N i c o t i n a m i d e A d e n i n e D i n u c l e o t i d e P h o s p h a t e
A T P : A d e n o s i n e 5 T r i p h o s p h a t e .
A C K N O W L E D G E M E N T S
T h i s w o r k w a s s u p p o r t e d by a g r a n t of t h e F o r d F o u n d a t i o n .
Jan. 1970 s T E R O I D S 193
REFERENCES
(1) KAHNT, F . W . , N E H E R , K . , SCHMID and W E T T S T E I N E x ~ e r i e n t i a , 17: 19, (1961).
(2) E I K - N E S , K . B . and K E K R E , M. , B i o c h i m . B i o o h y s . A c t a 78: 449, ( 1 9 6 3 )
¢3) ELLIS, L.C. and BERLINGER, D.L., Endocrinology 76:591
(1965)
(4) DAVID, R . R . , W IENER, M . , ROSS, L . , and LANDAU, R . L . , 5. Cl in . E n d o c r i n o l o g y & Metab . 2 5 : 1 3 9 3 (1965)
(5) TAMAOKI, B . I . and SHIKITA, M. , S t e r o i d D y n a m i c s , e d i t e d by G. PINCUS, T. NAKAO and J . F . TAIT , A c a d e m i c P r e s s , New Y o r k . p. 493 (1966)
(6) HOSCHOIAN, J.C. and BROWNIE, A.C. , Steroids I_O0:49 (1967)
(7) ROSNER, J. M., HORITA, S. and FORSHAM, .P.H., Endocrinology
75: Z99, (1964)
(8) NEHER, K. , KAHNT, F. W. , Ghent symposium, June 1965, p. 130
Excerpta Medica Foundation.
(9) AXELROD: Bioch. Biophys, Acta 97:551 (1965)
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(I 1 ) KNAPSTEIN, P. , WENDLBERGER, F. , G. and TOUCHSTONE, J.C., Steroids
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(12) YAMAJI, T. , MOTOHASHI, K. , TANIOKA, T. and IBAYASHI, H.
Endocrinology 83:99Z (1968)
(13) ZAFFARONI, A. Recent Progr. Hormone Res. 8:51 (1953)
(14) PETERSON, R.E. Personal Communication . (1961)
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