Steroids labelled

Irradiation of a mixture of neon and nitric oxide gives no-carrier-added nitrosyl [ F]fluoride (ON[ F]F) [45,67], Hydrolysis yields [ F]fluoride that was proposed for bone scanning. ON[ F]F was designed with steroid labelling in mind in which addition to a double bond should lead to an a-[ F]fluoroketone entity, but this idea was not further pursued. 

On the other hand, it is not yet known whether the same effect is found with C-steroids labeled with tritium-containing reagents. Thus values obtained with C-steroids as internal standards and tritiated acetic anhydride for labeling are probably reliable. Similarly the high losses in the S-thiosemicarbazone methods of Riondel et al. (Rl, R2) were attributed largely to losses in the microchemical reactions with progesterone, but poor elution of the thiosemicarbazones from paper and silica gel plates was also regarded as a major factor with testosterone. Since... 

Linker length (n) Steroid Label detectability Reference... 

Figure 3.39 Steroid labeled from tritium gas catalyzed by [lr(H)2(acetone)2(PPh3)2]BF4...

Figure 6.27 Use of phenyl [ld" C]acetate for the synthesis of steroids labeled at C3 and examples of steroids labeled at C3 and C4...

Strategy Problem 6 A labelled compound for biosynthetic studies. Mevaloitic acid (TM 418) is an intermediate in the biosynthesis of terpenes and steroids (Tedder, volume 4, p.217 ff). To study exactly what happens to each carbon atom during its transformation into, say, hmonene (418A), we need separate samples of mevalonic acid labelled with in each carbon atom in the molecule. This turns our normal strategy on its head since we must now look for one carbon discoimections. You can use reagents like Na CN, and... 

Boron Bromide. Approximately 30% of BBr produced in the United States is consumed in the manufacture of proprietory pharmaceuticals (qv) (7). BBr is used in the manufacture of isotopicaHy enriched crystalline boron, as a Etiedel-Crafts catalyst in various polymerization, alkylation, and acylation reactions, and in semiconductor doping and etching. Examples of use of BBr as a catalyst include copolymerization of butadiene with olefins (112) polymerization of ethylene and propylene (113), and A/-vinylcarbazole (114) in hydroboration reactions and in tritium labeling of steroids and aryl rings (5). 

The incorporation of a chapter on deuteration in a steroid monograph is quite reasonable since development of a number of the most important deuteration reactions have actually had their impetus through steroid research. The field of steroid chemistry offers possibly the largest variety of deuteration reactions of any area of organic chemistry. Many of these deuteration techniques have also been used for tritium labeling, which is especially pertinent in view of the large demand for tritiated steroids as tracers in biological experiments. 

This reduction is not as suitable for sterically hindered ketones, since in these cases the alcohol is the major product. The reduction of 11- and 12- " keto steroids, for example, is usually very slow. Furthermore, the 11-keto steroid (76) yields only about 10% of the 11,1 l-d2 labeled analog (77), the main product being the 1 IjS-dj-l la-hydroxyl derivative (78). ... 

The reduction of oxime derivatives (section IV-C) is useful for the preparation of steroidal amines labeled with a deuterium on the nitrogen-bearing carbon atom... 

Three different methods have been discussed previously (sections III-C,III-D and IV-A) for the replacement of a carbonyl oxygen by two deuteriums. However, in the conversion of a 3-keto steroid into the corresponding 3,3-d2 labeled analog, two of the three methods, electrochemical reduction (section ni-C) and Raney nickel desulfurization of mercaptal derivatives (section IV-A), lead to extensive deuterium scrambling and the third method, Clemmensen reduction (section III-D), yields a 2,2,3,3,4,4-dg derivative. 

Homogeneous catalytic deuteration of various unsaturated 5a-spirostane derivatives is an excellent method for the preparation of side chain labeled analogs. Thus, saturation of the double bonds at positions 20(21), 23 and 24 provided the corresponding deuterated compounds (144), (145) and (146) in high isotopic purity. The preparation of (146) is a rare example of the saturation of an isolated trisubstituted double bond in the steroid field. 

A pertinent example is the reduction of 5a-androst-8-en-l 1-one (154) which yields 8 -di-5a-androstan-l 1-one (155) in 93% isotopic purity. Saturation of A -6-keto steroids gives equally good results for labeling the 8/5-position. ... 

Some advantages of this reaction are high yield if the tosylate is in a sterically accessible position excellent isotopic purity of the product (usually higher than-95%) and perhaps most important, access to stereospecifically labeled methylene derivatives. For example, deuteride displacement of 3j -tosylates (183) yields the corresponding Sa-d derivative (185) in 96-98% isotopic purity. Application of this method to the labeled sulfonate (184), obtained. by lithium aluminum deuteride reduction of a 3-ketone precursor (see section HI-A) followed by tosylation, provides an excellent synthesis of 3,3-d2 labeled steroids (186) without isotopic scrambling at the adjacent positions. The only other method which provides products of comparable isotopic purity at this position is the reduction of the tosyl-hydrazone derivative of 3-keto steroids (section IV-B). 

Other examples of the successful displacement of tosylates are the preparation of 31 -, 16a-,16j - and27- labeled steroids. This displacement reaction fails, however, with certain C-18 and C-19 alcohol derivatives which give mainly O—S instead of C—O bond cleavage. Unsatisfactory results were also obtained with sterically hindered tosylate esters at C-11, C-12 and C-20, which give considerable amounts of olefinic products in addition to O—S bond cleavage. ... 

This reaction has been successfully extended to the preparation of the following labeled steroidal ketones ... 

A facile method for the stereospecific labeling of carbon atoms adjacent to an oxygenated position is the reductive opening of oxides. The stereospecificity of this reaction is due to virtually exclusive diaxial opening of steroidal oxides when treated with lithium aluminum hydride or deuteride. The resulting /ra/w-diaxial labeled alcohols are of high stereochemical and isotopic purity, with the latter property depending almost solely on the quality of the metal deuteride used. (For the preparation of m-labeled alcohols, see section V-D.)... 

Lithium aluminum deuteride reduction of the 2a,3a-oxide function has been carried out with a number of different 5a-steroids (227). ° The isotopic purity of the resulting 2 -d,-3a-ols (228) is usually 96-100%. By mild oxidation, under Jones conditions, these alcohols can be converted into stereospecifically labeled monodeuterio ketones (229) ° of high isotopic purity. (For an alternate preparation of certain a-monodeuterio ketones, see section VI-B.)... 

The most frequently encountered examples of cyclopropyl ring opening reactions in the steroid field are usually associated with angular or side chain methylation sequences. In fact, isotope labeling of the C-19 angular methyl group is the only reported application of this reaction for deuteration or tritiation pui poses. 

Deuterium labeling of certain positions in the steroid nucleus can be a serious problem if suitably functionalized starting materials are not available or if a particular part of the molecule to be labeled is unsuitable for the various reactions described previously in this chapter. In these cases, the only practical solution to this problem is to incorporate the appropriately labeled carbon fragment by synthesis of the desired skeleton. 

An example is the preparation of 18-trideuterio 5a-steroids bearing a side chain at C-17. Labeling of this position with three deuteriums was accomplished by utilizing the Johnson procedure for steroid total synthesis. This synthesis involves, in part, introduction of the 18-angular methyl group by methylation of the D-homo-17a-keto-17-furfurylidene intermediate (243). By substituting d3-methyl iodide in this step, the C/D cis- and ra/J5-18,18,18-d3 labeled ketones [(244) and (245)] are obtained. Conversion of the C/D tra 5-methylation product (245) into 18,18,18-d3-d /-3)8-hydroxy-5a-androstan-17-one (246) provides an intermediate which can be converted into a wide variety of C-18 labeled compounds of high (98%) isotopic... 

Deuterium labeling of C-18 has also been accomplished by an alternate procedure adapted from the Nagata steroid synthesis. During the course of the total synthesis of pregnanolone, thevC-18 function is introduced in the form of a nitrile group. Reduction of this function in intermediate (247) with lithium aluminum deuteride leads to a deuterated imine (248), which upon Wolff-Kishner reduction and acid-catalyzed hydrolysis... 

During the course of a mass spectrometric study of D-homo-14-hydroxy steroids, it was necessary to prepare the corresponding C-8 deuterium labeled analogs. The preparation of these uncommon steroid derivatives has been achieved by repeating the Torgov total synthesis [(257) (262)] with a deuterium-labeled bicyclic starting material (258). Both of the resulting 14-hydroxy epimers, (261) and (262), exhibited better than 90% isotopic purity. ... 

Generally, methylation of enolate ions with isotopically tagged methyl iodide is a satisfactory labeling procedure. For example, application of this method has given the C-18 labeled steroids, (244) and (245) (see above), 17 -acetoxy-4jS-trideuteriomethyl-4a-methyl-l9-norandrost-5-en-3-one (264) and 19- C-testosterone acetate (268). Methylation of the anion derived from 17jS-acetoxy-4-methyl-l9-norandrost-4-en-3-one (263) with d3-methyl iodide occurs predominantly at C-4, yielding mainly the 4)S-trideuterio-methyl derivative (264) and about 10% of the corresponding C-4 epimer... 

Site-specific deuterium labeling of steroids can also be accomplished by biosynthetic procedures, using deuterated precursors, but these methods are beyond the scope of this chapter. For reviews of this subject see, for example, ref. 45, 54 and 55. 

This general procedure can be used to prepare C-20 or C-21 labeled steroids by using or C HglVIgBr, respectively. 

---