Gossypol-induced free radical toxicity to isolated islet cells

1. The cytotoxicity of the polyphenolic potential male antifertility agent gossypol was investigated on isolated mouse islets cells. 2. Gossypol shared many properties with the diabetogenic agent alloxan. 3. Gossypol (0.1-1.0 mmol/l) induced a concentration-dependent increase of Trypan Blue uptake by the cells, indicating an increase of membrane permeability to the dye. 4. Trypan Blue uptake induced by 0.5 mmol/l gossypol was inhibited by concomitant incubation of the cells with enzymatic (200 mg/l superoxide dismutase, 200 mg/l catalase, 3 mmol/l cytochrome-c), or low-molecular weight (50 mmol/l D-mannitol) scavengers of oxygen radicals, and the metal chelator diethylenetriaminepentacetic acid (DTPA) (50 mumol/l). 5. The results support the hypothesis that gossypol is B-cytotoxic by generation of noxious free radicals and that when proposing gossypol as a male antifertility agent, studies to exclude gossypol as a diabetogenic agent should first be performed in vivo.     

Inactivation of intestinal brush-border enzymes by gossypol

Gossypol, a pigment found in cottonseed that has recently been shown to have antifertility properties, inhibited the activity of 3 intestinal brush border enzymes in a concentration-dependent manner. Suspensions of rat intestinal mucosa were incubated with various concentrations of gossypol for 45 minutes and then washed. At a concentration of 6 mg per gm mucosa, gossypol inhibited the activities of alkaline phosphatase, maltase, and sucrase by 57, 73, and 77%, respectively. Gossypol is a bifunctional agent, capable of cross-linking amino acid side chains, and its action on brush-border enzymes may be due to this mechanism. Recent investigations have demonstrated that rats fed a diet of 10-15 mg of gossypol/day/kg of body weight exhibit reduced fertility. This study suggests that a partial inhibition of brush-border enzymes may occur at doses used to cause infertility. Such a side effect should be considered in studies and treatments utilizing a gossypol diet.     

Binding of 3H-gossypol in organelles of cultured bovine luteal cells.

Gossypol is an antifertility agent which inhibits steroidogenesis in both sexes. The present study investigated the binding of gossypol in organelles of cultured bovine luteal cell to elucidate its inhibitory site of action in steroid biosynthesis. Cultured bovine luteal cells were incubated with 3H-gossypol (4.3 or 2.15 microM) for 3 hours. At the end of treatment, cultured bovine luteal cells were harvested, homogenized and centrifuged for organelle preparation. The radioactivity of gossypol was measured in each subcellular fraction. The cell membrane fraction has the highest binding capacity for gossypol, and the majority of gossypol was located in the particulate fractions. Results of the present study provide information in understanding the regulatory mechanism of gossypol on antisteroidogenic and/or toxic effects in cultured bovine luteal cells.     

Gossypol inhibition of acrosin and proacrosin, and oocyte penetration by human spermatozoa

Gossypol, a known antispermatogenic agent, was found to effectively inhibit the highly purified boar sperm proacrosin-acrosin proteinase enzyme system by irreversibly preventing the autoproteolytic conversion of proacrosin to acrosin and reversibly inhibiting acrosin activity. The agent appears to prevent the self-catalyzed by not the acrosin-catalyzed activation of proacrosin. In additional experiments, brief exposure of human semen to concentrations of gossypol, which did not visibly alter spermatozoal motility or forward progression, was found to irreversibly inhibit the conversion of proacrosin to acrosin although the activity of the nonzymogen acrosin was not decreased, and also to prevent the human spermatozoa from penetrating denuded hamster oocytes. Gossypol inhibition of proacrosin conversion to acrosin closely paralleled the decline in oocyte penetration. Racemic (+/-) gossypol was equally as effective as the enantiomer (+) gossypol. The results suggest that the inhibition of proacrosin conversion to acrosin is a mechanism by which gossypol exerts its antifertility effect at nonspermicidal concentrations and that low levels of gossypol should be tested for their contraceptive action when placed vaginally.     

Inhibition of testicular LDH-X from laboratory animals and man by gossypol and its isomers

The inhibitory effect of (+)-, (-)-, (+/-)-gossypol and (+/-)-gossypol acetic acid upon testicular cytosolic LDH-X was measured in vitro. Gossypol acetic acid (0-100 mumol/l) inhibited LDH-X prepared from the testes of the mouse greater than rabbit greater than human greater than rat greater than hamster. There was no relationship between inhibition and in-vivo antifertility activity. LDH activity measured in vitro in serum of men and hamsters was unaffected by gossypol. Gossypol and its isomers were non-competitive inhibitors of human and hamster LDH-X with respect to the coenzyme NADH, competitive inhibitors of human LDH-X and noncompetitive-competitive inhibitors of hamster LDH-X with respect to the substrate alpha-ketobutyrate. Co-incubation with human serum albumin or poly-L-lysine but not lysine protected human and hamster LDH-X from gossypol.     

The effect of gossypol on the frequency of DNA-strand breaks in human leukocytes in vitro

Gossypol, a human antifertility agent isolated from the cotton plant, was found to induce a dose-dependent increase in the frequency of DNA-strand breaks in human leukocytes exposed to 2-40 micrograms/ml of the drug for 1 h in serum-free medium in vitro. DNA-strand breaks were studied by alkaline elution or alkaline unwinding of DNA followed by hydroxylapatite-chromatography. No decrease of gossypol-induced DNA-strand breaks was observed after post-treatment incubation times up to 24 h, whereas X-ray-induced DNA breaks disappeared within 2 h under the same incubation conditions. Cells exposed to gossypol in the presence of 10% fetal calf serum showed no or little increase of DNA breaks, suggesting that serum proteins inhibit the DNA-damaging activity of the drug. Both optical isomers of gossypol induced DNA-strand breaks. However, the effect of (-)-gossypol was only about half of that of (+)-gossypol and the racemic form. The induction and persistence of DNA-strand breaks by gossypol, as well as the reduction of this effect in the presence of serum should be considered in the evaluation of the potential in vivo genotoxicity of the drug.     

Acute hypokalemic effect of gossypol

Clinical trials had demonstrated that chronic ingestion of gossypol induced infertility in males. Hypokalemia of various severities were reported in volunteers taking gossypol. The purpose of this study is to investigate the effects of acute gossypol infusion into alkalotic rats. Plasma potassium concentration decreased from 4.08 to 2.87 mM after gossypol infusion with minimal change in urinary potassium excretion. The hypokalemic effect of gossypol was also observed in nephretomized rats. Some of the factors that are known to affect potassium distribution between the extracellular and intracellular fluid compartment have been investigated in these rats. Plasma glucose concentration was not significantly altered. Gossypol induced hypokalemia was not blocked in rats treated with propranolol. It is therefore believed that the acute hypokalemic effect of gossypol is a direct shifting of potassium into cells.     

Antifertility mechanisms of gossypol acetic acid in female rats

Gossypol acetic acid was administered orally (30, 60, 90 and 120 mg/kg/day) on Days 1-5 post coitum to mature female rats. At autopsy on Day 10, pregnancy in most treated animals (6/7 and 6/8) was blocked at high doses (90 and 120 mg/kg/day respectively). As the daily dose decreased to 60 mg/kg/day half (4/8) were not pregnant. However, at a lower dose (30 mg/kg/day), or at a single dose of 200 mg/kg at Day 1 p.c., pregnancy was not blocked. The concentrations of progesterone in the serum of these females were significantly decreased except at the low dose. The numbers of implantation sites in the treated females that did remain pregnant were similar to those in control females except at the dose of 120 mg/kg/day. Gossypol did not retard the development of the preimplantation embryo or cavitation. The Pontamine Blue test revealed that the drug did not interfere with the initiation of implantation. We suggest that gossypol has an antifertility effect in the female rat because it is luteolytic and disrupts post-implantation development.     

棉酚抗生育新机制——对磷脂酶A_2活力的抑制作用(英文)

 采用微孔比色法及荧光分析法 ,研究抗男性生育化合物棉酚与猪胰腺磷脂酶A2 (phospho lipaseA2 ,PLA2 ,EC3 1 1 4 )温育并透析前后对酶活力及荧光的影响 .结果表明 ,棉酚与PLA2 不可逆地结合明显地降低了PLA2 活力及荧光强度 .棉酚对酶活力抑制作用的IC50 为 35μmol L ;当其浓度达到 80 μmol L时 ,能够完全抑制PLA2 ( 4 11μmol L)对合成底物 2 硫代十六酰乙基磷酸胆碱(HEPC ,0 .2 5mmol L)的水解作用 .PLA2 的最大激发波长与发射波长分别为 2 75nm ,34 3nm ,荧光强度与酶浓度呈良好的线性关系 .棉酚对PLA2 的荧光具有较强的淬灭作用 .由于PLA2 与男性生育密切相关 ,棉酚对PLA2 活力的影响可能是其避孕作用及伴随的副作用的一种新的重要机制     

Transfer of 3H-gossypol to neonatal rats via milk of nursing dams.

Gossypol is a naturally occurring toxin with potent antifertility action in both males and females. Transfer of gossypol via milk from lactating mother to neonates has not been documented. One theory for the lack of such a finding is that gossypol, once tightly bound to milk proteins, is not extractable by conventional extraction methods for HPLC analysis. This study was designed to examine the possibility and dynamics of transmammary transfer of radioactively-labelled gossypol to neonates through nursing. Nursing rats were dosed with fifty microCi of 3H-gossypol in 0.5 ml of dimethyl sulfoxide via oral intubation on Day 10 post-partum. Six hours after treatment, significant amounts of 3H-gossypol were detected in the coagulated milk collected from the stomachs of the neonates as well as in the blood, liver, lung, spleen and a number of other tissues of these pups. While most neonatal tissues showed a steady decline in 3H-gossypol retention over time regardless of neonatal gender, adrenal glands and gonads preferentially accumulated 3H-gossypol in a time- and sex-dependent manner during the 24-hour sampling period. The results demonstrate that 3H-gossypol is transferred via milk from the nursing dams to their neonates. Thus, the gossypol content of milk presents a conceivable threat to neonatal health, especially to the normal function of steroidogenic organs.     

Binding of gossypol to purified tubulin and inhibition of its assembly into microtubules

Gossypol is a polyphenolic pigment, which is employed as a male antifertility drug. It inhibits, among other reported effects, the growth of cultured mammalian cells, spermiogenesis, flagellar motility in Trypanosoma and sperm, dynein ATPase and the lactate dehydrogenase X (LDH-X) isozyme. We have characterized the non-covalent binding of gossypol to purified calf brain tubulin in 10 mM phosphate buffer, 0.1 mM GTP pH 7.0 at 25 degrees C. Equilibrium measurements were performed by difference spectroscopy. A peak at 435 nm was produced by the perturbation of gossypol light absorption upon binding to tubulin. The experimental isotherm was fitted by 1.96 +/- 0.06 gossypol binding sites per tubulin molecule, with identical apparent equilibrium binding constants of (7.5 +/- 1.1) X 10(4) M-1. The complex formed could be separated from free gossypol by gel chromatography. Binding of gossypol was independent of the presence of 0.1 mM GTP in the buffer. Gossypol did not affect the binding of ligands to the colchicine site. Gossypol interacted with vinblastine but apparently did not bind to the vinblastine sites of tubulin. Gossypol did not displace anilinonaphthalene sulphonate (ANS) bound to tubulin, but caused a strong (fivefold) quenching of its fluorescence. This indicated that gossypol probably binds in the vicinity of the ANS site of tubulin. Gossypol inhibited in vitro microtubule assembly at the same concentration range employed in the binding studies. An increase in the critical protein concentration required for polymerisation was observed, most simply interpreted by a stoichiometric mechanism. Gossypol did not induce any noticeable distortion of the microtubules observed under the electron microscope. This compound constitutes a new tubulin ligand and an inhibitor of microtubule assembly in vitro.     

Different pathways of cell killing by gossypol enantiomers

Gossypol, a polyphenolic, aldehyde-containing constituent of cottonseed, produced partial responses (>50% reduction in tumor size) in some patients with advanced cancer and suppressed sperm as an antifertility agent for men. This action in vivo and its novel side effect profile suggest a specific mechanism of the action of gossypol. Using the random homozygous knockout approach of Li and Cohen (1), we developed a cell line resistant to killing by gossypol, but sensitive to methotrexate and doxorubicin. It showed stereospecific resistance to killing by (-) gossypol (ED(50) 4.9 microM) compared with wild type (ED(50) 2.0 microM). The resistant and wild-type cells were equally sensitive to (+) gossypol (ED(50) 8.8 and 8.4 microM, respectively), methotrexate, and doxyrubicin. We conclude that gossypol affects cells by a stereospecific pathway for (-) gossypol, possibly related to its selective effects, and a nonstereospecific pathway for (+) gossypol and higher concentrations of (-) gossypol. Further knowledge about the stereospecific pathway may lead to new therapeutic drugs.     

Oxygen radical formation induced by gossypol in rat liver microsomes and human sperm

Gossypol, a polyphenolic compound found in cotton plants, has many potential uses, including use as a male antifertility drug and spermicide. Gossypol affects a variety of cell processes and many of these effects may be explained by a common underlying mechanism. Here we report that gossypol promotes the formation of oxygen radicals when incubated with rat liver microsomes and human sperm suggesting that oxygen radical production may be the underlying basis of its biological activity.     

Variable sister-chromatid exchange response in human lymphocytes exposed in vitro to gossypol acetic acid

Gossypol has potential for widespread use as a male oral antifertility agent in humans since it appears to be highly efficacious, with reversible spermatostatic effects and minimal side effects. Furthermore, it is both inexpensive and readily available. Therefore, a thorough understanding of gossypol's genotoxic potential is critical. Although genotoxicity studies have produced conflicting reports, increased sister-chromatid exchange (SCE) and DNA-strand breaks have been reported in human cells exposed to gossypol in vitro. In the present study, SCE was examined in purified human lymphocytes and whole blood cultures exposed to gossypol acetic acid at various concentrations in serum-free medium. A small but statistically significant increase in SCE was observed in pooled analysis of 7 donors in whole blood cultures exposed to 0.70 microM gossypol acetic acid (p less than 0.02). Individual analyses revealed only one donor with a significant SCE response (p less than 0.001). In subsequent experiments, exposure at higher doses had no effect on SCE frequencies. A small but significant increase in SCE was observed in ficoll/hypaque purified lymphocytes exposed to 0.07 and 0.70 microM gossypol acetic acid. Interpretation of SCE data with variable response is discussed.     

Gossypol mediated DNA degradation

Gossypol, a polyphenolic compound isolated from cotton plant was found to degrade pBR322 DNA in vitro in a reaction which required the presence of a metal ion, a reducing agent (2-mercaptoethanol) and oxygen as revealed after agarose gel electrophoresis. Fe3+ and Co2+ showed maximum degradation whereas addition of Ca2+ and Mg2+ prevented the gossypol mediated DNA damage. Gossypol caused degradation of rat liver DNA incubated in vitro even in the absence of added metal ions and 2-mercaptoethanol. Incubation of intact rat liver nuclei with gossypol revealed DNA degradation and nuclei isolated from rats treated with gossypol in vivo showed higher susceptibility to DNA fragmentation when incubated with gossypol in vitro than control nuclei. EcoR1 and AIuI digestion of DNA isolated from gossypol treated rats gave clear cut evidence for DNA degradation. These observations indicate that gossypol is genotoxic and considerable care has to be exercised in its use.     

The (+)- and (−)-gossypols potently inhibit human and rat 11β-hydroxysteroid dehydrogenase type 2

Gossypol has been proven to be a very effective male contraceptive. However, clinical trials showed that the major side effect of gossypol was hypokalemia. Gossypol occurs naturally as enantiomeric mixtures of (+)-gossypol and (−)-gossypol. The (−)-gossypol is found to be the active component of antifertility. 11β-Hydroxysteroid dehydrogenase 2 (11βHSD2) has been demonstrated to be a mineralocorticoid receptor (MR) protector by inactivating active glucocorticoids including corticosterone (CORT) in rats, and therefore mutation or suppression of 11βHSD2 causes hypokalemia and hypertension. In the present study, the potency of gossypol enantiomers was tested for the inhibition of 11βHSD1 and 2 in rat and human. Both (+) and (−)-gossypols showed a potent inhibition of 11βHSD2 with the half maximal inhibitory concentration (IC₅₀) of 0.61 and 1.33 μM for (+) and (−)-gossypols, respectively in rats and 1.05 and 1.90 μM for (+) and (−)-gossypols, respectively in human. The potency of gossypol to inhibit 11βHSD1 was far less; the IC₅₀ was ≥100 μM for racemic gossypol. The gossypol-induced hypokalemia is likely associated with its potent inhibition of kidney 11βHSD2.     

Cytogenetic study of the effect of gossypol on mouse germ cells

The clastogenic and mutagenic activities of a new antifertility and antitumor agent gossypol were studied in the mouse male germ cells. Results of the present work indicate that at the doses 125 and 250 mg/kg the drug does not significantly increase frequencies of the micronuclei in the early spermatids and sperm head abnormalities. Hence, genotoxic influence can not be proposed as responsible for the antifertility effect of gossypol.     

Recovery of soluble proteins from glanded cotton tissues with amines

A simple soluble protein extraction method was developed for glanded cotton (Gossypium hirsutum L.) tissues. Gossypol, a major component of glands, is known to crosslink and precipitate proteins in cotton tissue homogenates. Established phenolic removal reagents were evaluated as gossypol binding agents and found to be less than effective in enhancing cotton leaf-soluble protein recovery. Several other amines, including a number of affinity support bound amines, were tested and found relatively ineffectual when compared with urea as cotton protein protectants. Urea and (NH4)2SO4, the next most active agent found in the study, were compared on both whole-leaf homogenates and artificial mixtures containing known quantities of poly-L-lysine and a clathrate of gossypol and acetic acid. Urea treatment resulted in both an increased number of stained bands and more concentrated staining of bands than any other treatment on polyacrylamide gels. Selected enzymes demonstrated increased activities in urea homogenates compared with other treatments.     

Differential effects of (+)- and (-)-gossypol enantiomers on LDH-C4 activity of hamster spermatogenic epithelium in vitro

Tubular fragments (spermatogenic epithelium) from immature hamsters were isolated and cultured with low doses of (+)- and (-)-gossypol enantiomers. The activity of lactate dehydrogenase isoenzyme LDH-C4 was estimated as a marker for spermatogenic cell development and alpha-ketoisovalerate was used as the substrate. In the absence of gossypol, the specific activity of LDH-C4 in the tubular fragments was increased 40% during incubation for 48 h. This developmental increase was suppressed by gossypol. The specific activity of LDH-C4 in the tubular fragments was lowered by gossypol, after 48 h of culture in the presence of low doses of racemic gossypol (1-4 microM) and 1% fetal calf serum. In this in-vitro system the (-)-enantiomer but not the (+)-enantiomer of gossypol affected the LDH-C4 activity. This is in agreement with other reports showing that only the (-)-enantiomer induces infertility. The observed action of gossypol on LDH-C4 activity in the tubular fragments may reflect gossypol-induced degeneration of spermatogenic cells. The present in-vitro system can be used to estimate the actions of gossypol derivatives, other investigational antifertility agents, and toxic agents on the spermatogenic epithelium.     

The effect of gossypol on serum lipoproteins of adult rats

It has been shown that gossypol treatment brings about marked changes in plasma lipoproteins of certain species causing a marked fall in total cholesterol and LDL-cholesterol levels. Using Helena electrophoretic system the lipoprotein pattern in serum of adult rats treated with gossypol was studied. Gossypol treatment for 1 day and 7 days continuously did bring about changes in serum lipoprotein profile. A marked increase in VLDL-cholesterol and fall in LDL-cholesterol was observed in rats treated with gossypol which was more pronounced in the 7 days treated group. It did not bring about any marked change in total cholesterol level. It did cause an increase in serum triglyceride level. Heparin injection which brought about a fall in VLDL-cholesterol with a concomitant increase in HDL-cholesterol in control rats did not elicit changes in gossypol-treated rats. Thus, gossypol treatment appears to alter serum lipoprotein metabolism in rats also.