α-Thalassemia and the production of different α chain variants in heterozygotes

The production of five chain variants (Hb G-Georgia, Hb St. Luke's, Hb Lloyd, Hb Montgomery, and Hb G-Philadelphia) in heterozygotes was evaluated through hematological observations, hemoglobin quantification, and biosynthetic studies. All heterozygotes for Hb St. Luke's and Hb Lloyd and most heterozygotes with Hb G-Georgia and Hb Montgomery had normal hematology and average / values of about 1.1. They were assigned a normal genotype (^G/), although the proportions of Hb St. Luke's and Hb G-Georgia were low (10 to 13%) and those of Hb Lloyd and Hb Montgomery twice as high (20%). Data from short-term incubations confirmed this genotype for some of these heterozygotes. Isolated Hb St. Luke's and Hb G-Georgia gave low ^G/ values (0.2 and 0.3) indicating that these Hb variants were defective at the level of Hb assembly. Isolated Hb Montgomery and Hb G-Philadelphia, however, gave higher ^G/ values of 0.6 and 0.8, respectively. A second type of variability existed among Hb G-Georgia (20 vs. 13%), Hb Montgomery (28 vs. 20%), and Hb G-Philadelphia (47 vs. 34%) heterozygotes, in whom the levels of Hb G differed. The occurrence of higher levels of these three chain heterozygosities was associated with hematological or biosynthetic evidence of a mild or moderate chain deficiency due to an -thalassemia-2 heterozygosity (^G/⁰ or ^0G/) or a homozygosity (^0G/⁰), respectively.This study was supported in part by USPHS Research Grants HLB-05168 and HLB-15158.     

Mapping the α-globin genes in HB J Mexico carriers

Summary the organization of the -globin genes was studied by restriction endonuclease mapping, in subjects carrying the variant Hb J Mexico. A subject homozygous for Hb J synthesized both Hb J (about 55%) and Hb A and had two loci per chromosome. His restriction site map was found to be identical to that obtained with a normal DNA, except for a mutant Bgl II site which was observed on the Hb J chromosome proximal to the 5-locus. We have also mapped the DNA of a compound heterozygote for Hb J and -thalassemia, who synthesizes 38% Hb J and we have found a single gene corresponding to a –^3.7 haplotype on one chromosome and two genes, respectively ^J and ^A, on the other.     

Studies of the mechanisms of toxicity of the administration of recombinant tumor necrosis factor α in normal and tumor-bearing mice

Summary Tumor-bearing mice have a greater sensitivity to the acute lethal effects of the administration of high-dose recombinant human tumor necrosis factor (rhTNF-) compared to normal, non-tumor-bearing mice. We studied whether or not the presence of tumor per se was responsible for the enhanced rhTNF- toxicity. Tumor-bearing mice underwent tumor excision or sham operation before the systemic administration of rhTNF at staged times (0.5–24 h) following surgery. There was little survival difference between sham-operated tumor-bearing mice and tumor-bearing mice undergoing tumor excision (at 24 h, treatment with 12 µg rhTNF-, survival:sham-operated tumor bearers = 0/12, excised tumor-bearers = 0/12;P ² <0.01 compared to non-tumor-bearers). Mice without tumors receiving sham operation, had minimal toxicity (10 of 12 mice surviving). The injection of 3 ml Ringer's lactate i.p. before i.v. rhTNF- therapy increased survival in tumor-bearing animals; following pretreatment with Ringer's lactate 30/42 mice survived 12 µg rhTNF- compared to 6/42 surviving a similar rhTNF- dose without hydration (P ² <0.001). Since the production of oxygen free-radical metabolites has been postulated to play a role in the acute toxicity of rhTNF-, bismuth subnitrate was used to induce the enzyme metallothionein to act as a natural scavenger for these metabolites. Daily oral bismuth subnitrate treatments improved survival of mice with MCA-106 or MCA-102 sarcoma and of mice without tumors, with higher rhTNF- doses (12–20 µg), without reducing the therapeutic effect of rhTNF- against the weakly immunogenic MCA-106 sarcoma. These studies suggest methods for reducing the toxicity of rhTNF- administration in clinical trials.     

Selective inhibition of the non-enzymatic lipid peroxidation of phosphatidylserine in rod outer segments by α-tocopherol

In the present study it was investigated if a-tocopherol shows protection against in vitro lipid peroxidation of phospholipids located in rod outer segment membranes (ROS). After incubation of ROS in an ascorbate-Fe²⁺ system, at 37°C during 160 min, the total cpm originated from light emission (chemiluminescence) was found to be lower in those membranes incubated in the presence of -tocopherol. The fatty acid composition of total lipids isolated from rod outer segment membranes was substantially modified when subjected to non-enzymatic lipid peroxidation with a considerable decrease of docosahexaenoic acid (22:6 n-3). The incorporation of -tocopherol (0.35 mol/mg protein) produce a 43.37% inhibition of the lipid peroxidation process evaluated as chemiluminiscence (total cpm originated in 160 min). The phospholipid species containing the highest amount of docosahexaenoic acid: phosphatidyletanolamine and phosphatidylserine were more affected than phosphatidylcholine during the lipid peroxidation process. Not all phospholipids, however, were equally protected after the addition of -tocopherol to the incubation medium. Phosphatidylcholine and phosphatidyletanolamine, were not protected by -tocopherol, the vitamin provides selective antioxidant protection only for phosphatidylserine. These results indicate that -tocopherol may act as antioxidant protecting rod outer segment membranes from deleterious effect by a selective mechanism that diminishes the loss of docosahexaenoic acid from phosphatidylserine.     

High D-glucose does not affect binding of α-tocopherol to human erythrocytes

The role of -tocopherol uptake system in human erythrocyte in the uptake of plasma -tocopherol has been suggested. However no information is available on -tocopherol uptake activity of human erythrocytes in the presence of high levels of D-glucose which is known to lead to pathological alterations in different cells including human erythrocytes. Therefore, in order to examine the effect of D-glucose on the binding of -tocopherol to human erythrocytes, the binding characteristics of -tocopherol to these cells were established first. Binding of [3H]-tocopherol to human erythrocytes was both saturable and specific. Scatchard analysis of -tocopherol binding to these cells showed the presence of two independent classes of binding sites with widely different affinities. The high affinity binding sites had a dissociation constant (Kd1) of 90 nM with a binding capacity (n1) of 900 sites per cell, whereas the low affinity binding sites had a dissociation constant (Kd2) of 5.2 M and a binding capacity (n2) of 105,400 sites per cell. Trypsin treatment abolished all the -tocopherol binding activity. Competition for the binding of -tocopherol to human erythrocytes was effective with other homologues of -tocopherol (-tocopherol, -tocopherol and -tocopherol) and their potency was almost equal to -tocopherol itself. The order of preference was -tocopherol > -tocopherol -tocopherol -tocopherol. Incubation of human erythrocytes with various concentrations of D-glucose did not affect -tocopherol uptake activity. Our data demonstrate the presence of an -tocopherol uptake system in human erythrocytes and that the -tocopherol uptake activity is not modulated by the presence of D-glucose.     

Incorporation of 14CO2 in prenylquinones of Chlorella pyrenoidosa

Incorporation and release of ¹⁴C-label in prenylquinones of Chlorella was investigated under steady state conditions. After one hour of ¹⁴CO₂-photosynthesis all plastid quinones investigated were labeled. The highest label was found in phylloquinone (18%) while -tocopherol exhibits the lowest label (0.38%). Among the plastoquinones, plastohydroquinone-9 shows a higher labeling degree (5.1%) and a faster labeling kinetic than plastoquinone-9 (1.6%). After replacement of ¹⁴CO₂ against ¹²CO₂ the total radioactivity in plastohydroquinone-9, -tocopherol and phylloquinone decreases but in -tocoquinone and plastoquinone-9 proceeds further. From this labeling kinetic we conclude, that newly synthesized [¹⁴C]-tocopherol molecules are converted to [¹⁴C]-tocoquinone and [¹⁴C]plastohydroquinone-9 molecules to [¹⁴C]plastoquinone-9. From their ¹⁴C-incorporation kinetic half-lives could be calculated for all prenylquinones in the same ranges as previously found for the chlorophylls and carotenoids (Grumbach et al., 1978). Half-lives are shorter in plastohydroquinone-9 (30 min) and plastoquinone-9 (40 min) than in phylloquinone (55 min), -tocoquinone (50 min) and -tocopherol (220 min). This means that all prenyl-lipids such as chlorophyll a, -and -carotene, plastohydroquinone-9 and plastoquinone-9 which are more directly involved in the process of photosynthesis are subject to a continuous and higher turnover than the xanthophyll and -tocopherol. From the fast labeling kinetic and short half-lives of -tocoquinone and especially phylloquinone with a labeling degree of 12% after one hour of ¹⁴CO₂ photosynthesis we suppose that perhaps these two prenylquinones are also involved in the photosynthetic activity of chloroplasts.     

Alpha-tocopherol in the retinal outer segment of bovine eyes

Summary -Tocopherol was identified in lipid extracts of bovine retinal outer segment (ROS) preparations. Positive identification was obtained by the thin layer chromatographic characteristics of the tocopherol form and its oxidation product -tocopherylquinone, and by the ultraviolet spectrum of the oxidized and KBH₄-reduced form of the tocopherylquinone. In the ROS preparations used, -tocopherol chromanol was the predominant species, the quinone form accounting for 25% or less of the total. The concentration of -tocopherol in the ROS preparations was about 0.1 mole -tocopherol per mole rhodopsin, or about 1 nmole/mg, protein. Mitochondria from bovine retina contained about 0.4 nmole -tocopherol per mg protein.     

Peptide modification by incorporation ofα-trifluoromethyl substituted amino acids

Summary Metabolic stabilization of pharmacologically active peptides can be achieved by incorporation of sterically hindered non-natural amino acids, e.g. C ^, -disubstituted amino acids.-Trifluoromethyl substituted amino acids, a subclass of C ^, -disubstituted amino acids, also fulfil this requirement while featuring additional properties based on the electronic influence of the fluorine substituents.This review summarizes the results concerning the stability of peptides containing-TFM amino acids towards proteolysis by-chymotrypsin. Furthermore, configurational effects of-TFMAla on the proteolytic stability of peptides are explained using empirical force field calculations. The influence of-TFMAla incorporation on the secondary structure of selected tripeptide amides is compared to the effects exerted by its fluorine-free analogue, aminoisobutyric acid.Finally, results on metabolic stabilization and biological activity of modified thyrotropin releasing hormone are interpreted.     

Purification and partial characterisation of and α-tocopherol-binding protein from rabbit heart cytosol

An -tocopherol-binding protein has been isolated and purified from rabbit heart cytosol. The purified protein had an apparent molecular mass of 14,200, as derived from SDS-PAGE. The content of the protein in rabbit heart was around 11.8 g per g of tissue. The binding of -tocopherol to the purified protein was rapid, reversible, and saturable. Neither nor tocopherol could displace the bound -tocopherol from the protein, suggesting a high specificity for -tocopherol. -Tocopherol-binding protein did not bind oleate. Transfer of -tocopherol from liposomes to mitochodria was stimulated 8-fold in the presence of the binding protein, suggesting that this protein may be involved in the intracellular transport of -tocopherol in the heart.     

Ascorbic acid spares α-tocopherol and prevents lipid peroxidation in cultured H4IIE liver cells

Ascorbic acid, or vitamin C, can recycle -tocopherol in lipid bilayers, but even sparing of -tocopherol has not been a consistent finding in intact cells. Therefore, we tested the ability of ascorbate loading to spare -tocopherol and to prevent lipid peroxidation of cultured H4IIE rat liver cells. Although -tocopherol was undetectable in H4IIE cells, its cell content was increased by overnight incubation with -tocopherol in culture. Cells incubated with ascorbate 2-phosphate accumulated ascorbate to concentrations as high as 0.6 mM after overnight loading, but also released ascorbate into the medium. Ascorbate loading of -tocopherol-treated cells spared -tocopherol in a concentration-dependent manner during overnight incubation. Lipid peroxidative damage, measured as a decrease in fluorescence of cell-bound cis-parinaric acid, was decreased in cells loaded with either -tocopherol or ascorbate 2-phosphate, and showed an additive effect. These results suggest that ascorbate loading of H4IIE cells spares cellular -tocopherol and either directly or through recycling of -tocopherol prevents lipid peroxidative damage due to oxidant stress in culture.     

Facile preparation of optically pure [α-2H]-α-amino acids

Summary Racemic [-²H]--amino acids were prepared by heating the corresponding amino acids (Phe, nor-Leu and Dopa) with 0.05 equivalents of benzaldehyde in deuterated-acetic acid. Based on¹H-nmr measurement, the isotopic purities of these racemized [-²H]--amino acids were found to be higher than 99.5%. Methylation of these isotope-labelled amino acids was achieved in methanol/thionyl chloride without affecting isotopic purity. Optically pure [-²H]--amino acids were obtained in high yield with high enantiomeric excess via alcalase catalysed resolution.     

Clofibric acid or diethylmaleate supplemented diet decrease blood pressure in DOCA-salt treated male Sprague-Dawley rats - relation with liver antioxidant status

The effects of ascorbate and a-tocopherol as antioxidants and as co-operative factors against NADPH-dependent lipid peroxidation in human placental mitochondria have been studied. The addition of ascorbate at low concentration (up to 50 M) to the NADPH-generating system resulted in increasing lipid peroxidation and Fe³⁺ to Fe²⁺ reduction. High concentration of ascorbate (150 M), which produced maximal rate of ascorbate-dependent lipid peroxidation, was found to inhibit almost completely NADPH-dependent lipid peroxidation by maintaining too much iron in its reduced form. Either stimulatory or inhibitory effect of ascorbate on NADPH-dependent lipid peroxidation depends on the appropriate Fe³⁺/Fe²⁺ ratio. -Tocopherol caused a decrease of NADPH-dependent lipid peroxidation, inhibiting completely this process at 150 M concentration. The inhibitory effect of -tocopherol increased rapidly with the increasing ascorbate concentration, almost complete inhibition of NADPH-dependent lipid peroxidation being obtained at 25 M -tocopherol and 50 M ascorbate. This strong inhibitory combined effect of -tocopherol and ascorbate was independent of the Fe³⁺/Fe²⁺ ratio, as a-tocopherol is not able to reduce Fe³⁺ to Fe²⁺ under the conditions employed. These findings suggest that antioxidant effects of ascorbate in placental mitochondria are mediated by recycling of a-tocopherol rather than by strong reduction of Fe³⁺ to Fe²⁺. On the basis of the results obtained, we assume that adequate concentrations of a-tocopherol and ascorbate in placental tissue may prevent the release of lipid peroxide from placental mitochondria and therefore could be protective against the development of preeclampsia.     

Identification of surface exposed amino acids of isolated and membrane-bound CF1 by protease accessibility

In order to compare surface-exposed amino acids in isolated and membrane-bound CF₁ the technique of limited proteolysis was employed. The cleavage sites of several proteases were identified by sequence analysis of the resulting peptides after isolation by SDS-PAGE. In isolated CF₁ the N-terminal region of the subunit was found to be highy sensitive to proteases; the accessible peptide bonds included E17-G18, R21-E22, E22-V23, and K24-V25. Additional protease-attacked bonds in subunit were S86-S87, xE125-S126. and R127-L128. In the subunit of isolated CF₁ the bonds L14-E15 and V76-A77 were identified as being accessible. All identified protease accessible amino acids are located at the protein surface according to a molecular model of CF₁ computed after the crystal structure of mitochondrial F₁ by S. Engelbrecht (1997). In membrane bound CF₁ the primarily accessible peptide bond of the N-terminal domain of is R21-E22. After this bond is cleaved by trypsin, the K24-V25 becomes accessible to further trypsin attack. Moreover, the peptide bonds R14O-S141 and G16O-R161 are cleaved. According to the Engelbrecht model G16O is almost completely shielded and actually this amino acid was hardly accessible to protease in isolated CF₁. The subunit in general is much more sensitive to proteolysis in membrane-bound than in solubilized CF₁. In the subunit of membrane-bound CF₁ a papain-sensitive bond G102-G103 was identified. The results indicate major structural alterations when CF₁ is extracted from the CF₀CF₁ complex. Thiol modulation, i.e. reduction of the regulatory disulfide bond between C199 and C205 of y subunit, enhances the accesibility of a number of peptide bonds, in particular G160-R161, to proteolytic attack by papain. In contrast, thylakoid membrane energization results in masking of this peptide bond.     

C(alpha) chemical shift tensors in helical peptides by dipolar-modulated chemical shift recoupling NMR

The C chemical shift tensors of proteins contain information on the backbone conformation. We have determined the magnitude and orientation of the C chemical shift tensors of two peptides with -helical torsion angles: the Ala residue in G*AL (=–65.7°, =–40°), and the Val residue in GG*V (=–81.5°, =–50.7°). The magnitude of the tensors was determined from quasi-static powder patterns recoupled under magic-angle spinning, while the orientation of the tensors was extracted from C–H and C–N dipolar modulated powder patterns. The helical Ala C chemical shift tensor has a span of 36 ppm and an asymmetry parameter of 0.89. Its ₁₁ axis is 116° ± 5° from the C–H bond while the ₂₂ axis is 40° ± 5° from the C–N bond. The Val tensor has an anisotropic span of 25 ppm and an asymmetry parameter of 0.33, both much smaller than the values for -sheet Val found recently (Yao and Hong, 2002). The Val ₃₃ axis is tilted by 115° ± 5° from the C–H bond and 98° ± 5° from the C–N bond. These represent the first completely experimentally determined C chemical shift tensors of helical peptides. Using an icosahedral representation, we compared the experimental chemical shift tensors with quantum chemical calculations and found overall good agreement. These solid-state chemical shift tensors confirm the observation from cross-correlated relaxation experiments that the projection of the C chemical shift tensor onto the C–H bond is much smaller in -helices than in -sheets.     

Interleukin-6 Induced Suppression of Bovine Parathyroid Hormone Secretion

Calcium disturbances in the critically ill coincide with elevations of proinflammatory cytokines. The effects of tumor necrosis factor- (TNF-) and interleukin-6 (IL-6) on parathyroid hormone (PTH) secretion were investigated. IL-6 and TNF- had no acute effect on PTH secretion in extracellular Ca²⁺ concentrations of 0.5, 1.25 and 3.0 mM. In contrast to TNF-, cultures for 24 h in the presence of l0 ng/mL of IL-6 showed decreased PTH secretion by 51% and 29% in 0.5 mM and 1.25 mMCa²⁺ respectively. Neither IL-6 nor TNF-, affected cytoplasmic Ca²⁺ of the cells. We conclude that PTH secretion in vitro can be suppressed by IL-6 at clinically relevant concentrations. This suppression may aggravate hypocalcemia of the critically ill and attenuate the conventionally strong stimulation of the PTH release by reduction in serum calcium.     

α-Thalassemia haplotypes in the Algerian population

Summary DNA mapping was performed in seven unrelated HbH patients and nine carriers for -thalassemia trait originating from Algeria. This study has allowed us to identify four -thalassemia haplotypes: the (–^3.7) haplotype, which is the most frequent (18 of 23 -thalassemic chromosomes), the (–()^20.5) haplotype, a (--) haplotype, and an ()^T haplotype. Our results also show that the (–^3.7) haplotypes encountered in the Algerian population are heterogeneous and differ by the site of the unequal crossover responsible for the 3.7-kb deletion and the size of the interzeta fragment. In addition, during this survey we observed that normal chromosomes bearing a polymorphic BglII site are associated with different interzeta fragments.     

Damage to cultured lens epithelial cells of squirrels and rabbits by UV-A (99.9%) plus UV-B (0.1%) radiation and alpha tocopherol protection

The purpose of this research is to observe the near-UV radiation induced damage to cultured rabbit and squirrel lens epithelial cells as related to destruction and alterations of specific biochemical targets in the cells and to determine protective effects on the cells and targets that are provided by -tocopherol.Confluent monolayers of cultured rabbit and squirrel lens epithelial cells were exposed to black light (BL) lamps, which emit predominantly UV-A radiation. These cells received a mixture 3 J/cm² of UV-A and 4 mJ/cm² of UV-B per h. This mixture is termed near UV_A (ie:predominantly UV-A). Cells were exposed in Tyrode's or in MEM without or with -tocopherol added at 2.5–10 g/ml. Analyses of cell viability and survival, the physical state of cytoskeletal actin, and the activities of Na-K-ATPase and catalase were made.Exposure to near UV_A damaged these cells as measured by vital staining and colony forming ability. Pretreatment with -tocopherol decreased the magnitude of near UV_A cytotoxicity. Near UV_A exposure in MEM always produced more damage to the cells and biochemical targets than in Tyrode's. Cytoskeletal actin was degraded and the activities of Na-K-ATPase and catalase were markedly inhibited by UV-exposure. All of these targets were at least partially protected by -tocopherol in the medium. Without -tocopherol added to the media, the viability and survival of the cells did not recover even after 25 h of incubation. Cell viability was better protected from near UV_A by -tocopherol than was the ability to grow into colonies. This indicates that -tocopherol protects actin, catalase, and Na-K-ATPase from near UV_A damage.     

Comparison of 15N- and 13C-determined parameters of mobility in melittin

Backbone and tryptophan side-chain mobilities in the 26-residue, cytolytic peptide melittin (MLT) were investigated by ¹⁵N and ¹³C NMR. Specifically, inverse-detected ¹⁵N T₁ and steady-state NOE measurements were made at 30 and 51 MHz on MLT at 22 °C enriched with ¹⁵N at six amide positions and in the Trp¹⁹ side chain. Both the disordered MLT monomer (1.2 mM peptide at pH 3.6 in neat water) and -helical MLT tetramer (4.0 mM peptide at pH 5.2 in 150 mM phosphate buffer) were examined. The relaxation data were analyzed in terms of the Lipari and Szabo model-free formalism with three parameters: _m, the correlation time for the overall rotation; S², a site-specific order parameter which is a measure of the amplitude of the internal motion; and _e, a local, effective correlation time of the internal motion. A comparison was made of motional parameters from the ¹⁵N measurements and from ¹³C measurements on MLT, the latter having been made here and previously [Kemple et al. (1997) Biochemistry, 36, 1678–1688]. _m and _e values were consistent from data on the two nuclei. In the MLT monomer, S² values for the backbone N-H and C-H vectors in the same residue were similar in value but in the tetramer the N-H order parameters were about 0.2 units larger than the C-H order parameters. The Trp side-chain N-H and C-H order parameters, and _e values were generally similar in both the monomer and tetramer. Implications of these results regarding the dynamics of MLT are examined.     

Enhancement of vitamin E production in sunflower cell cultures

The most biologically active component of vitamin E, -tocopherol, is synthesized in its most effective stereoisomeric form only by photosynthetic organisms. Using sunflower cell cultures, a suitable in vitro production system of natural -tocopherol was established. The most efficient medium was found to be MS basal medium with naphthaleneacetic acid and 6-benzylaminopurine with the addition of casaminoacids and myo-inositol. Culture feeding experiments using biosynthetic precursors showed that -tocopherol production improved by 30% when homogentisic acid was used. Interestingly, time-course experiments with sunflower suspension cultures showed a possible increase of 78% in -tocopherol production when using cultures of longer subculture intervals. Compared to the starting plant tissue, an overall 100% increase of -tocopherol was reached by these sunflower cell cultures.     

Transformation of 16-dehydroprogesterone and 17α-hydroxyprogesterone by Mucor piriformis

Mucor piriformis was used to study the mode of transformation of 16-dehydroprogesterone (I, pregna-4, 16-diene-3, 20-dione) and 17-hydroxyprogesterone (II, 17-hydroxypregn-4-ene-3, 20-dione). Biotransformation products formed from I were 14-hydroxypregna-4, 16-diene-3, 20-dione (Ia), 7, 14-dihydroxypregna-4, 16-diene-3, 20-dione (Ib), 3, 7, 14-trihydroxy-5-pregn-16-en-20-one (Ic), and 3, 7, 14-trihydroxy-5-pregn-16-en-20-one (Id). Metabolites Ic and Id appear to be hitherto unknown. Time-course studies suggested that the transformation is initiated by hydroxylation at the 14-position (Ia) followed by hydroxylation at the 7-position (Ib). Microsomes (105,000 g sediment) prepared from 16-dehydroprogesterone-induced cells hydroxylate I to its 14-hydroxy derivative (Ia) in the presence of NADPH. Incubation of Ia with the organism resulted in the formation of Ib, Ic and Id. Biotransformation products formed from compound II were 17, 20-dihydroxypregn-4-en-3-one (IIa), 7, 17-dihydroxypregn-4-ene-3, 20-dione (IIb), 6, 17, 20-trihydroxypregn-4-en-3-one (IIc) and 11, 17, 20-trihydroxypregn-4-en-3-one (IId). Time-course studies indicated that IIa is the initial product formed, which is further hydroxylated either at the 6 or 11 position. Incubation of IIa with the organism resulted in the formation of IIc and IId. Reduction of the 4-en-3-one system and 20-keto group has not been observed before in organisms of the order Mucorales. In addition, M. piriformis has been shown to carry out hydroxylation at the C-6, C-7, C-11 and C-14 positions in the steroid molecules tested.