Biological Control and Use of Adjuvants against Multiple Seeded Cocklebur (Xanthium strumarium) in Comparison with Several Other Cocklebur Types

Common cocklebur has several biotypes including multiple seeded cocklebur (MSC), NCC-TX, and NCC-MS. Alternaria helianthi applied at 2.5×10⁴ conidia mL^-1 in a 50% micro-emulsion of unrefined corn oil (MESUCO) or 0.2% Silwet L 77 caused 60-75% mortality on NCC-TX and MSC. Increasing the conidial concentration to 5×10⁴ mL^-1 increased mortality to 100% on MSC and NCC-TX, and 75% on NCC-MS. At 10×10⁴ conidia mL^-1, A. helianthi caused 100% mortality in all three biotypes. No mortality occurred in any biotype at inoculation rates of 2.5 and 5×10⁴ conidia mL^-1 when applied in water. Increasing the dew period from 0 to 12 h increased mortality from 0 to 100% on all three biotypes at a rate of 2.5×10⁴ conidia mL^-1 in Silwet and MESUCO. MSC appears to be the most sensitive biotype.     

Factors Affecting Disease Development by Rhynchosporium alismatis in Starfruit (Damasonium minus), a Weed of Rice

The fungal pathogen Rhynchosporium alismatis is being developed for biological control of starfruit (Damasonium minus), an important aquatic weed in Australian rice fields. The development of R. alismatis in starfruit differs between juvenile and adult plants. Juvenile starfruit plants are stunted as a result of fungal infection, while in adult plants, the main effect is necrosis and chlorosis of floating leaves. A conidial concentration of 1×10⁴ conidia mL^-1 was adequate to cause disease symptoms on floating leaves, but the stunting effect on juveniles was caused by concentrations of at least 1×10⁵ conidia mL^-1. To successfully inoculate juvenile plants, the water must be drained before inoculation to expose plants to the inoculum. The artificial addition of dew periods did not enhance disease development in plants. The stunting of juvenile starfruit plants caused by the infection of R. alismatis may give rice plants a competitive advantage over the weed at the seedling stage     

Media and Fermentation Processes for the Rapid Production of High Concentrations of Stable Blastospores of the Bioinsecticidal Fungus Paecilomyces fumosoroseus

In shake flask and fermentor studies, various media components and culture inocula were tested to improve P. fumosoroseus spore production rates, yield and stability. To evaluate inoculum potential and inoculum scale-up for fermentor studies, conidia and liquid culture-produced spores of various strains of P. fumosoroseus were compared as inoculum. Inoculation of liquid cultures with blastospores at concentrations of at least 1×10⁶ spores mL^-1 resulted in the rapid production of high concentrations of blastospores (∼1×10⁹ spores mL^-1, 48 h fermentation time) for all strains tested. The rapid germination rate of blastospores (90% after 6 h incubation) compared to conidia (>90% after 16 h incubation) and the use of higher inoculum rates reduced the fermentation time from 96 to 48 h for maximal spore yields. A comparison of various complex nitrogen sources showed that liquid media supplemented with acid hydrolyzed casein or yeast extract supported the production of high concentrations of blastospores that were significantly more desiccation-tolerant (79-82% survival after drying) when compared to blastospores produced in media supplemented with other nitrogen sources (12-50% survival after drying). For rapid spore production, requirements for trace metals and vitamin supplementation were dependent on the type of hydrolyzed casein used in the medium. Fermentor studies with two strains of P. fumosoroseus showed that high concentrations (1.3-1.8×10⁹ spores mL^-1) of desiccation-tolerant blastospores could be produced in 48-h fermentations. These studies have demonstrated that the infective spores of various strains of the fungal bioinsecticide Paecilomyces fumosoroseus can be rapidly produced using deep-tank, liquid culture fermentation techniques.     

Evaluation of the bioherbicide Myrothecium verrucaria for weed control in tomato (Lycopersicon esculentum)

An isolate of the fungus Myrothecium verrucaria was evaluated for its biocontrol potential against common purslane, horse purslane, spotted spurge, and prostrate spurge, all serious weed pests in commercial tomato fields in the southeastern US. In greenhouse and field tests, M. verrucaria was highly virulent against these weeds when applied as conidial sprays formulated in 0.2% Silwet L-77 surfactant, even in the absence of dew. In field test plots naturally infested with these weeds, seedlings in the two-to-three leaf growth stage treated with M. verrucaria at 2×10⁷ conidia mL^-1 in 0.2% Silwet, exhibited leaf and stem necrosis within 24 h following inoculation, with mortality occurring within 96 h. After 7 days, M. verrucaria had killed 90-95% of both purslane species and 85-95% of both spurge species. Tomatoes that were transplanted into plots treated with M. verrucaria remained healthy and vigorous throughout the growing season. Since M. verrucaria effectively controlled several common weeds under field conditions, this fungus appears to have potential as an effective bioherbicide for pre-plant weed control in production systems with transplanted tomato.     

Biological Control of Kudzu ( Pueraria lobata ) with an Isolate of Myrothecium verrucaria

An isolate of the fungus Myrothecium verrucaria ( MV ) was evaluated for biocontrol potential against kudzu ( Pueraria lobata ). In greenhouse tests, MV was highly virulent against kudzu in the absence of dew when conidia were formulated in 0.2% Silwet L-77 surfactant (SW). Inoculum concentrations ≥2 ×10 7 conidia ml -1 were required to satisfactorily control plants in the third leaf stage and larger. In controlled environment experiments, kudzu mortality was greater at higher temperatures (25-40°C) than at lower temperatures (10-20°C), although pathogenesis and mortality occurred at all temperatures tested. In field tests, transplanted kudzu seedlings in the 2-3 leaf growth stage treated with MV at 2 ×10 7 conidia ml -1 in 0.2% SW, exhibited leaf and stem necrosis within 24 h following inoculation, with mortality occurring within 96 h. After 7 days, 100% of inoculated kudzu plants were killed in plots treated with the fungus/surfactant mixtures. Similar results were observed in a naturally occurring kudzu population, where 100% control occurred within 14 days after inoculation with 2 ×10 7 conidia ml -1 in 0.2% SW. In summary, MV effectively controlled kudzu in the absence of dew over a wide range of physical and environmental conditions and under field conditions. These results indicate that, when properly formulated, MV has potential as a valuable bioherbicide for controlling kudzu.     

Influence of Agricultural By-products in Liquid Culture on Chlamydospore Production by the Potential Mycoherbicide Fusarium oxysporum Foxy 2

Economically feasible inoculum mass production methods are required for successful application of Fusarium oxysporum Foxy 2 as a potential mycoherbicide. Therefore, different substrates (agricultural by-products) and the factors that influence the production of spores, especially chlamydospores, of Foxy 2 were investigated in liquid cultures. The substrates tested were cotton seed cake, maize stover, wheat and triticale stillage. The presence of plant fibers in the medium of unfiltered cotton seed cake (2.5%, w/v) significantly enhanced chlamydospore, micro- and macroconidia production by 150, 185, and 300%, respectively, compared to the filtered (fiber-free) medium. Regardless of the type of substrate tested, Foxy 2 was able to produce abundant chlamydospores (0.14-2.7×10⁷ mL^-1) in all growth media. Generally, increasing the concentrations of cotton seed cake and maize stover in the medium significantly increased chlamydospore formation; however, this was not the case for wheat-based stillage. To optimize conditions required for chlamydospore production of Foxy 2, the effect of near ultra-violet (NUV) light, substrate combinations (synergism), level of agitation, incubation time and their interaction were studied. A liquid culture of 2.5% (w/v) filtered cotton seed cake, exposed to continuous NUV for 15 days, doubled the yield of chlamydospores (4.7×10⁶ mL^-1) and macroconidia (5×10⁵ mL^-1), and increased microconidial production by one-third (1×10⁸ mL^-1) compared to natural light. An apparent synergistic effect of substrate combination was observed, since the addition of 20% (v/v) of either wheat or triticale-based stillage to maize stover medium (1%, w/v) increased the number of chlamydospores produced by 16 or 12 times, respectively, compared to maize stover alone (1.4×10⁶ mL^-1), and 2 times more than either of the stillages. A significantly positive effect between a high level of agitation tested during incubation and chlamydospore production of Foxy 2 was recorded. All in all, substantial chlamydospore production of Foxy 2 (4.3×10⁷ mL^-1) was successfully achieved within 12 days of incubation in a single-step liquid fermentation through the combination of 0.5% (w/v) maize stover plus 20% (v/v) wheat-based stillage and a high level of agitation (200 rpm).     

A Multiple-Pathogen System for Bioherbicidal Control of Several Weeds

A novel system using four host-specific fungal plant pathogens applied in a single, postemergent spray to control pigweed, sicklepod, and showy crotalaria was tested under greenhouse conditions. The four pathogens were Phomopsis amaranthicola (a pathogen of pigweed species), Alternaria cassiae (a pathogen of sicklepod and showy crotalaria), Colletotrichum dematium f. sp. crotalariae and Fusarium udum f. sp. crotalariae (pathogens of showy crotalaria). Spore suspensions of each pathogen alone (10⁶ spores mL^-1) or a mixture of the four pathogens (1:1:1:1, v/v, 2.5×10⁵ spores mL^-1 of each pathogen, total 10⁶ spores mL^-1) were tested on four- to six-leaf stage seedlings of the three weed species grown together in pots. One week after inoculation (WAI), all sicklepod and showy crotalaria seedlings were killed, and all pigweed seedlings were killed by 6 WAI when inoculated with their respective pathogen(s) alone or a mixture of the pathogens. None of the weeds inoculated with the root-infecting pathogen F. udum developed wilt disease by the time the experiment was completed (6WAI). The results demonstrate the feasibility to control three weeds simultaneously with different fungi without loss of efficacy or alterations in host-specificity of each fungus in the given mixture. Scanning electron microscopy showed visual differences in the appearance or germination and further development of conidia of each pathogen on its respective host leaf surface compared to nonhost leaf surfaces, whether the pathogen was applied alone or in a mixture with the other pathogens studied. Application of several host-specific fungal pathogens in a bioherbicide mixture as a multi-component bioherbicide system may be advantageous for further development of simultaneous, broad-spectrum weed control.     

Use of chitin to improve a Beauveria bassiana alginate-pellet formulation

A study was undertaken to evaluate optimum concentrations of chitin in sodium alginate pellet formulations to enhance conidia production. Chitin concentrations tested were 0, 0.5, 1, 2, 3 and 4% (w/v), with (2%, w/v) or without wheat bran. The different chitin-wheat bran pellet combinations were prepared with Beauveria bassiana isolate Qu-B306 at 10⁸ conidia mL^-1. After 21 days of incubation in a humid chamber at 28°C, conidia production was assessed. Improvements up to three times the initial conidia number were achieved using 2% chitin and 2% wheat bran. Higher levels of chitin decreased the number of conidia per pellet. For all chitin concentrations, conidia number increased with the addition of wheat bran (P≤0.05). Contamination by saprophytic fungi was reduced by the incorporation of chitin in the pellet formulation.     

短小芽孢杆菌AR03对烟草赤星病菌和白粉病菌的防治

采用对峙培养法、凹玻片法、LB琼脂培养基萌发法测定短小芽孢杆菌AR03对烟草赤星病菌和白粉病菌的抑制作用.结果表明： AR03菌液对2种病菌的菌丝生长和分生孢子萌发均有明显的拮抗作用;对赤星病菌的抑制作用表现为:经AR03菌液原液(3×10⁸cfu·mL^-1)处理的菌丝隔间变短、肿胀且集结成团,内含物聚集,菌丝顶端生长膨大畸形;经该菌液处理的赤星病菌分生孢子不萌发或萌发产生畸形芽管,分生孢子变形、肿大,纵横分隔部分的组织膨胀呈泡状.AR03菌液原液、30倍液和200倍液对白粉病菌分生孢子萌发的平板抑制率分别为100%、91.4%和 69.3%,菌液对分生孢子萌发的破坏作用表现为分生孢子不萌发,细胞肿胀变形、细胞原生质解体或收缩,孢子内、外壁分离,由于原生质外泄,一些分生孢子内部呈中空状.温室防治试验结果表明： 不同浓度AR03菌悬液处理对烟草白粉病的防治效果存在显著差异,第二次药后7和15 d,AR03菌液原液的防治效果分别达到83.8%和90.3%,与对照药剂差异不显著;而100倍稀释液的防效分别为70.0%和73.3%,与对照药剂差异显著.AR03菌株防治白粉病的持效期为30 d以上.     

Pectinase and cellulase enhance the control of Abutilon theophrasti by Colletotrichum coccodes

Inundative mycoherbicidal biocontrol agents are typically insufficiently virulent to be commercially competitive with herbicides in row crop agriculture, and require enhancement. Pectinase and cellulase are typically used by pathogens during infection. Thus, it was hypothesized that adding exogenous cell wall degrading enzymes might enhance fungal infection. Pectinase or cellulase was added to inocula of aqueous chopped mycelial suspensions of a strain of Colletotrichum coccodes for control of Abutilon theophrasti. Plants treated with 5.3×10⁶ C. coccodes propagules mL^-1 and 1.65 U mL^-1 pectinase had more rapid and complete disease development. Similar trend was achieved when 10 U mL^-1 of cellulase were added to 2.2×10⁶ C. coccodes propagules mL^-1. Adding pectinase or cellulase did not increase the host range of the wild-type fungus. The results suggest that there might be value to transforming biocontrol agents to overproduce these enzymes.     

Selection of an Isolate of the Insect Pathogenic Fungus Metarhizium anisopliae Virulent to the Lettuce Root Aphid, Pemphigus bursarius

The virulence of hyphomycete entomopathogenic fungi was measured in laboratory bioassays against the lettuce root aphid, Pemphigus bursarius, a serious pest of field lettuce grown in the UK. Of 25 isolates of fungi examined, only one isolate, Metarhizium anisopliae 391.93, killed lettuce root aphids consistently. This fungus was isolated originally from the closely related saltmarsh aphid, P. trehernei. The median lethal concentration of conidia at 10 days post6- 1 inoculation estimated from five independent bioassays was 2.45 × 10⁶ conidia ml^-1. The fungus had no significant effect on the mean number of offspring/aphid produced, but it sporulated 6 profusely on host cadavers, producing approximately 4 × 10⁶ conidia/cadaver 14 days after treatment, and diseased aphids died attached to plant roots. It thus has the potential to spread through densely packed colonies of P. bursarius feeding on the roots of susceptible or partially resistant plants.     

Bench-scale fermentation of Trichoderma viride on wastewater sludge: Rheology, lytic enzymes and biocontrol activity

Conidiation and lytic enzyme production by Trichoderma viride at different solids concentration of pre-treated municipal wastewater sludge was examined in a 15-L fermenter. The maximum conidia concentration (5.94 × 10⁷ CFU mL⁻¹ at 96 h) was obtained at 30 g L⁻¹ suspended solids. The maximum lytic enzyme activities were achieved around 12–30 h of fermentation. Bioassay against a fungal phytopathogen, Fusarium sp. showed maximum activity in the sample drawn around 96 h of fermentation at 30 g L⁻¹ suspended solids concentration. Entomotoxicity against spruce budworm larvae showed maximum value ≈17290 SBU μL⁻¹ at 30 g L⁻¹ suspended solids concentration at the end of fermentation (96 h). Plant bioassay showed dual action of T. viride, i.e., disease prevention and growth promotion. The rheological analyses of fermentation sludges showed the pseudoplastic behaviour. In order to maintain required dissolved oxygen concentration ≥30%, the agitation and aeration requirements significantly increased at 35 g L⁻¹ compared to 30 and 25 g L⁻¹. The oxygen uptake rate and volumetric oxygen mass transfer coefficient, k_La at 35 g L⁻¹ did not increase in comparison to 30 g L⁻¹ due to rheological complexity of the broth during fermentation. Thus, the successful fermentation operation of the biocontrol fungus T. viride is a rational indication of its potential for mass-scale production for agriculture and forest sector as a biocontrol agent.     

Effect of volume and concentration of conidial suspensions of Coniothyrium minitans on infection of Sclerotinia sclerotiorum sclerotia

White mould, caused by Sclerotinia sclerotiorum, is a serious disease affecting a wide range of agricultural and horticultural crops. Biological control is one option available to limit its damage. Field experiments to evaluate various concentrations and volumes of Coniothyrium minitans spore suspensions applied to S. sclerotiorum-infected bean crops were conducted in 1997 and 1998. Percentage sclerotia infected by C. minitans were scored. Three replicate experiments were performed in time in 1997 with 21 combinations of isolates, volumes and concentrations, including two controls. In 1998, 22 combinations of isolates, volumes and concentrations plus two controls were used, combined with the absence or presence of a maize buffer, with two replicates for each. Isolates as well as concentration and volume had no effect on infection by C. minitans, but there was a significant effect of total dose (volume×concentration) of inoculum applied over the full range from 100 L ha^-1 at 10⁴ conidia mL^-1 to 1000 L ha^-1 at 10⁷ conidia mL^-1. Percentage infected sclerotia increased linearly with log (dose) as well as from 1 to 4 weeks after application of C. minitans, and reached a level of about 100% at high doses under the humid conditions of 1998. Apothecia of S. sclerotiorum developing from sclerotia in collected soil samples from the 1997 experiment showed no significant effect of C. minitans inoculum dose, but there was a significant effect of the replicate experiments. The influence of weather conditions is highlighted, and the implications of the results for cost-effective biocontrol of S. sclerotiorum are discussed.     

Properties of amino-terminal parathyroid hormone-related peptides modified at positions 11–13

Biological properties of amino-terminal PTHrP analogues modified in the region 11–13 were examined using ROS 17/2.8 cells. [Leu¹¹,D-Trp¹²,Arg¹³,Tyr³⁶]PTHrP(1–36)amide had a 17-fold lower binding affinity for the receptor (apparent K_d: 5 × 10⁻⁸ M) than [Tyr³⁶]PTHrP(1–36)amide or [Arg^11,13,Tyr³⁶]PTHrP(1–36)amide (apparent K_d for both: 2 × 10⁻⁹ M). Moreover, it is only a weak partial agonist despite completely inhibiting radioligand binding. [Leu¹¹,D-Trp¹²,Arg¹³,Tyr³⁶,Cys³⁸]PTHrP(7–38) and PTHrP(7–34)amide had similar receptor affinities (apparent K_ds: 5 × 10⁻⁸ M and 8 × 10⁻⁸ M), while that of [Nle^8,18,Tyr³⁴]bPTH(7–34)amide was more than 10-fold lower (apparent K_d: 2 × 10⁻⁶ M). These changes in biological properties suggest that high affinity receptor binding requires both amino- and carboxyl-terminal domains of the PTHrP(1–36) sequence and/or intramolecular interactions which are impaired by the D-Trp substitution for Gly¹².     

Animal cell culture in stirred bioreactors: observations on scale-up

The scale-up of stirred tank bioreactors from 0·02 m³ to a 0·3 m³ commercial plant is discussed for hybridoma suspension cultures. Schemes for dissolved oxygen control with sparged air in serum containing media are described, as well as mechanical breakage of foam in small and large bioreactors. Porous metal spargers (180–200 × 10⁻⁶ m) were found to produce foams which were hard to control. Aeration with larger (≥ 0·001 m) multihole spargers is recommended.

Combined cell damage due to foam formation and control, and possible damage at mechanical seals or submerged bearings, were found to have no measurable effect on cell growth relative to roller bottle production. Hybridomas are shown to withstand significant impeller tip speed ( > 1 m s⁻¹) and fluid turbulence as evidenced by impeller Reynolds numbers in excess of 10⁵. The size of the energy-dissipating terminal eddies was calculated to be greater than ten-fold that of the hybridoma cells. The specific fluid turnover rate was employed as the scale-up criterion.     

长枝木霉对小麦禾谷孢囊线虫的致死作用

通过室内显微观察和测定不同时期长枝木霉分生孢子悬浮液对小麦禾谷孢囊线虫2龄幼虫的致死作用,初步研究了长枝木霉分生孢子悬浮液对小麦禾谷孢囊线虫的防治潜力和作用机理.结果表明： 侵染初期大量分生孢子吸附或寄生于虫体体壁,并且在分生孢子寄生的部位出现明显的缢缩.侵染后期寄生于虫体的分生孢子萌发产生大量菌丝,并形成致密的菌网将虫体缠绕或穿透虫体体壁,甚至有的虫体完全被分解.不同浓度长枝木霉分生孢子悬浮液对2龄幼虫具有明显的致死和寄生作用,且不同浓度之间存在显著差异.致死和寄生作用随着长枝木霉分生孢子悬浮液浓度的增加而增强,浓度为1.5×107 cfu·mL-1的长枝木霉分生孢子悬浮液处理后72 h,2龄幼虫的死亡率和校正死亡率分别为91.3%和90.4%,14 d后对2龄幼虫的寄生率为88.7%.表明长枝木霉分生孢子悬浮液对小麦禾谷孢囊线虫的致死作用较强,该菌具有对小麦禾谷孢囊线虫的防治潜力.     

Comparison Between Different Assays for Superoxide Dismutase-Like Activity

The direct and indirect methods for assaying the superoxide dismutase activity of a compound are compared. With the use of a direct method. the mechanism of the catalysis of O₂-dismutation by the tested compound can be determined. while with the indirect method it cannot. and this may lead to misinterpretation of the results. Assuming that the catalysis occurs via the 'ping-pong' mechanism, both the direct and indirect methods are limited to the determination of values of k_cat ≥ 10⁵M^-1s^-1 and k_cat ≥ 3 × 10⁶M^-1s^-1. respectively. Moreover, many side reactions may occur with the indirect method which may interfere with the measurements. Nevertheless. the indirect method approximates better the in vivo conditions than the direct method, and a tested compound that has high SOD activity using a direct method and low SOD activity using an indirect method. will most probably be a poor SOD mimic in vivo.     

Effect of Epidemiological Factors on the Impact of the Fungus Plectosporium tabacinum on False Cleavers ( Galium spurium )

The fungus Plectosporium tabacinum has been evaluated as a bioherbicide for control of false cleavers ( Galium spurium ), but the limiting factors and optimal conditions for successful control using this pathogen are not known. False cleavers mortality and dry weight reductions caused by P. tabacinum were assessed under single or combined factors, including pathogen inoculum concentration, plant growth stage, dew period (duration, frequency, and timing), and dew period temperature. The minimum inoculum concentration required to kill false cleavers seedlings was 1 ×10 7 conidia mL -1 at an application rate of 150 mL m -2 . False cleavers seedlings in the cotyledon or 1-whorl growth stage were the most susceptible. Increasing inoculum concentration increased weed control efficacy on older false cleavers seedlings. When an adequate dew period was provided, 100% mortality and dry weight reduction occurred. The minimum dew period to achieve 100% mortality was 16 h. Delaying the initiation of the dew period by 24 h significantly reduced disease development. Short, repetitive dew periods only improved false cleavers control to a limited extend and the length of initial dew is a critical factor influencing false cleavers mortality due to P. tabacinum . The optimal dew period temperature for disease development was above 15°C.     

A simple in-vitro 'wet-plate' method for mass production of Phytophthora nicotianae zoospores and factors influencing zoospore production

A simple in-vitro ‘wet-plate’ method for mass-producing Phytophthora nicotianae zoospores at ≥ 1.0 × 10⁶ zoospores/ml is described. Temperature critically affected zoospore production; 22 °C was optimum, while 36 °C was completely inhibitory. Zoospores being the most important propagule of P. nicotianae, temperature of recycled irrigation water may be manipulated to reduce diseases in irrigated nursery crops.     

Effect of nomegestrol acetate on estrone-sulfatase and 17β-hydroxysteroid dehydrogenase activities in human breast cancer cells

It is well recognized that estradiol (E₂) is one of the most important hormones supporting the growth and evolution of breast cancer. Consequently, to block this hormone before it enters the cancer cell or in the cell itself, has been one of the main targets in recent years. In the present study we explored the effect of the progestin, nomegestrol acetate, on the estrone sulfatase and 17β-hydroxy-steroid dehydrogenase (17β-HSD) activities of MCF-7 and T-47D human breast cancer cells. Using physiological doses of estrone sulfate (E₁S: 5 × 10⁻⁹ M), nomegestrol acetate blocked very significantly the conversion of E₁S to E₂. In the MCF-7 cells, using concentrations of 5 × 10⁻⁶ M and 5 × 10⁻⁵ M of nomegestrol acetate, the decrease of E₁S to E₂ was, respectively, −43% and −77%. The values were, respectively, −60% and −71% for the T-47D cells. Using E₁S at 2 × 10⁻⁶ M and nomegestrol acetate at 10⁻⁵ M, a direct inhibitory effect on the enzyme of −36% and −18% was obtained with the cell homogenate of the MCF-7 and T-47D cells, respectively. In another series of studies, it was observed that after 24 h incubation of a physiological concentration of estrone (E₁: 5 × 10⁻⁹ M) this estrogen is converted in a great proportion to E₂. Nomegestrol acetate inhibits this transformation by −35% and −85% at 5 × 10⁻⁷ M and 5 × 10⁻⁵ M, respectively in T-47D cells; whereas in the MCF-7 cells the inhibitory effect is only significant, −48%, at 5 × 10⁻⁵ M concentration of nomegestrol acetate. It is concluded that nomegestrol acetate in the hormone-dependent MCF-7 and T-47D breast cancer cells significantly inhibits the estrone sulfatase and 17β-HSD activities which converts E₁S to the biologically active estrogen estradiol. This inhibition provoked by this progestin on the enzymes involved in the biosynthesis of E₂ can open new clinical possibilities in breast cancer therapy.