Promotion of norepinephrine release and inhibition of calcium uptake by pyrethroids in rat brain synaptosomes

A series of 25 pyrethroids were assessed for their effects on Na⁺-dependent norepinephrine release and on Ca²⁺ uptake in vitro using a crude rat brain synaptosomal preparation. The most effective pyrethroids required a concentration of 3–10 μM to promote norepinephrine release. Plotting release data versus lipophilicity (as log P) for each compound resulted in a parabolic curve with log P_opt being 5.4 for maximal release. The release promoted by most of the compounds assessed at 30 μM could not be or was only partially reversed by either tetrodotoxin or substituting choline for Na⁺ conditions which readily reversed the release promoting effects of veratridine. Thus, many pyrethroids, particularly those without the α-cyano group, did not display their expected effects on the Na⁺ channel in rat brain. When assessed at 5 μM, pyrethroids inhibited, had no effect, or caused increases in the amount of Ca²⁺ incorporated in the presence of ATP. The effectiveness of the various pyrethroids to inhibit Ca²⁺ uptake again displayed a parabolic relationship with log P_opt being 6.4. It was concluded that the variations in pyrethroid effects on norepinephrine release and Ca²⁺ uptake are not solely related to their particular chemical structures, but to lipophilicity. The effects of many pyrethroids on Ca²⁺ metabolism, particularly displacement of bound Ca²⁺, better explain the transmitter release promoting properties in vitro rather than a direct effect on the Na⁺ channel. No direct relationship between known toxicity to mammals and Ca²⁺ inhibition by pyrethroids was established.     

The in vivo sensitivity of ATPases to DDT,DDE, and physical immobilization in American cockroaches

American cockroaches injected with sublethal doses of DDT (0.75 μg/roach) at 5-day intervals showed a 40% reduction in oligomycin-sensitive Mg²⁺ATPase from muscle homogenates, and a 23% reduction of Na⁺-K⁺ATPase from nerve cords. Thus, the maximum effect measured occurred with the same enzyme and tissue as determined from in vitro studies. The metabolite, DDE, used at 15 μg per roach, gave no significant change in activity of the ATPase system following injection. In contrast, high single doses of DDT (7.5 μg/roach) and 100 μg DDE and dicofol per roach caused over 30% increase in oligomycin-sensitive Mg²⁺ATPase of muscle and a 10–15% increase in Na⁺-K⁺ATPase of nerve cords measured 24 and 48 hr later. While a similar response was observed for Mg²⁺ATPase activities in cockroaches that were immobilized, the increase in enzyme activities were much greater than that caused by the pesticides.     

Binary mixtures of pyrethroids produce differential effects on Ca influx and glutamate release at isolated presynaptic nerve terminals from rat brain

Isolated rat brain synaptosomes were used to evaluate the action of pyrethroid mixtures on Ca²⁺ influx and subsequent glutamate release under depolarizing conditions. In equipotent binary mixtures at their respective and/or estimated EC₅₀s with deltamethrin always as one of the two components, cismethrin, λ-cyhalothrin, cypermethrin, esfenvalerate and permethrin were additive and S-bioallethrin, fenpropathrin and tefluthrin were less-than-additive on Ca²⁺ influx. In binary mixtures with deltamethrin always as one of the two components, esfenvalerate, permethrin and tefluthrin were additive and λ-cyhalothrin was less-than-additive on glutamate release. Binary mixture of S-bioallethrin and cismethrin was additive for both Ca²⁺ influx and glutamate release. Only a subset of pyrethroids (S-bioallethrin, cismethrin, cypermethrin, and fenpropathrin) in binary mixtures with deltamethrin caused a more-than-additive effect on glutamate release. These binary mixtures were, however, only additive (cismethrin and cypermethrin) or less-than-additive (S-bioallethrin and fenpropathrin) on Ca²⁺ influx. Therefore, increased glutamate release evoked by this subset of pyrethroids in binary mixture with deltamethrin is not entirely occurring by Ca²⁺-dependent mechanisms via their action at voltage-sensitive calcium channels. These results suggest that pyrethroids do not share a common mode of toxicity at presynaptic nerve terminals from rat brain and appear to affect multiple target sites, including voltage-sensitive calcium, chloride and sodium channels.     

Characterization of 11 commercial pyrethroids on the functional attributes of rat brain synaptosomes

The action of 11 commercial pyrethroids on Ca²⁺ influx and glutamate release was assessed using high-throughput functional assays with rat brain synaptosomes to better understand the mechanistic nature of pyrethroid-induced neurotoxicity and aid in the reassessment of pyrethroids in vivo. Concentration-dependent response curves for each of the non-cyano and α-cyano containing pyrethroids were determined and the data used in a cluster analysis. The previously characterized α-cyano pyrethroids that induce the CS-syndrome (cypermethrin, deltamethrin, and esfenvalerate) increased Ca²⁺ influx and glutamate release, and clustered with two other α-cyano pyrethroids (β-cyfluthrin and λ-cyhalothrin) that shared these same actions. Previously characterized T-syndrome pyrethroids (bioallethrin, cismethrin, and fenpropathrin) did not share these actions and clustered with two other non-cyano pyrethroids (tefluthrin and bifenthrin) that likewise did not elicit these actions. Our current findings indicate that pyrethroids that have an α-cyano group (with the exception of fenpropathrin) were more potent enhancers of Ca²⁺ influx and glutamate release under depolarizing conditions than pyrethroids that did not possess this functional group. The collective data set does not support the hypothesis that pyrethroids, as a class, act in a similar fashion at presynaptic nerve terminals.     

Comparative acute toxicity of neonicotinoid and pyrethroid insecticides to non‐target crayfish (Procambarus clarkii) associated with rice–crayfish crop rotations

BACKGROUND: Most insecticides used to control rice water weevil (Lissorhoptrus oryzophilus Kuscel) infestations are pyrethroids. However, pyrethroids are highly toxic to non‐target crayfish associated with rice–crayfish crop rotations. One solution to the near‐exclusive reliance on pyrethroids in a rice–crayfish pest management program is to incorporate neonicotinoid insecticides, which are insect specific and effective against weevils but not extremely toxic to crayfish. This study aimed to take the first step to assess neonicotinoids as alternatives to pyrethroids in rice–crayfish crop rotations by measuring the acute toxicities of three candidate neonicotinoid insecticides, clothianidin, dinotefuran and thiamethoxam, to juvenile Procambarus clarkii (Girard) crayfish and comparing them with the acute toxicities of two currently used pyrethroid insecticides, lambda‐cyhalothrin and etofenprox. RESULTS: Neonicotinoid insecticides are at least 2–3 orders of magnitude less acutely toxic (96 h LC₅₀) than pyrethroids to juvenile Procambarid crayfish: lambda‐cyhalothrin (0.16 µg AI L^?1) = etofenprox (0.29 µg AI L^?1) ? clothianidin (59 µg AI L^?1) > thiamethoxam (967 µg AI L^?1) > dinotefuran (2032 µg AI L^?1). CONCLUSION: Neonicotinoid insecticides appear to be much less hazardous alternatives to pyrethroids in rice–crayfish crop rotations. Further field‐level neonicotinoid acute and chronic toxicity testing with crayfish is needed. Copyright © 2009 Society of Chemical Industry     

Quantitative structure-activity studies of substituted benzyl chrysanthemates: 1. Correlations between symptomatic and neurophysiological activities against American cockroaches

A number of substituted benzyl (1R)-trans-chrysanthemates and related compounds were synthesized. Their symptomatic activities in terms of levels which induce convulsions as well as cause death in American cockroaches were determined by injection with and without application of synergists as inhibitors of metabolism. The neuroexcitatory and neuroblocking activities were also determined in terms of minimum effective concentrations to induce repetitive train of impulses and conduction blockage, respectively, to central nerve cords excised from the cockroaches and immersed in Ringer's solution. Correlations between symptomatic and neurophysiological activities were analyzed quantitatively with the aid of molecular hydrophobicity parameter and regression analysis. Each symptomatic activity from which the effect of metabolism is eliminated was found to be analyzable by means of a linear combination of indices for two types of neurophysiological activity when the transport factor is separated by using the hydrophobicity parameter. A closer correlation was found between neuroblocking activity and the “convulsive” effect than between neuroexcitatory activity and the “convulsive” effect, whereas both neurophysiological effects operate together on the cockroaches resulting in paralysis and death.     

Influence of calmodulin and ATP on DDT inhibition of Na/Ca exchange in the axolemma-rich nerve preparation from the American lobster

The effects of DDT on the Na/Ca exchange system were studied by using an axolemma-rich nerve membrane preparation from walking legs of Homerus americanus, the American lobster. The Na/Ca exchange system was measured by using two criteria: Na⁺ stimulated ⁴⁵Ca²⁺ uptake by the membrane vesicles and Na⁺Ca²⁺ protein kinase-phosphatase (formally called Ca-ATPase) as measured by the production of ³²P-labeled inorganic phosphate from [γ-³²P]ATP in the presence of Na⁺ and Ca²⁺. Activities of both systems were stimulated by the addition of exogenous calmodulin. DDT's inhibitory actions on both systems were reduced when an excess of calmodulin was added. Also addition of large amounts of ATP (or γ-thio-ATP) to the former system had an effect to reduce levels of DDT inhibition. DDT appears to act on the protein kinase proper as well as calmodulin itself in this system in a reversible manner.     

Two different types of inhibitory effects of pyrethroids on nerve Ca- and Ca + Mg-ATPase activity in the squid, Loligo pealei

The biochemical process by which various pyrethroid insecticides affect membrane-bound ATPase activities of the squid nervous system was examined. Of the five ATP-hydrolyzing systems tested, only Ca²⁺-stimulated ATPase activities are seen to be clearly affected by pyrethroids. It was found that the “natural type” pyrethroids (e.g., pyrethrin and allethrin) primarily inhibit Ca-ATPase activity whereas the “highly modified type” pyrethroids (e.g., cypermethrin and decamethrin) mainly inhibit Ca + Mg-ATPase. permethrin, which is considered to possess structural similarities to both the natural type and the highly modified type pyrethroids, was found to have an intermediate property in terms of its inhibitory potency to both Ca- and Ca + Mg-ATPase activities. The level of inhibition of Ca²⁺-stimulated ATPase activities was generally high in the retinal axons and optic lobe synaptosomes but lowest in the axoplasmic preparations.     

Pharmacokinetics of cis- and trans-substituted pyrethroids in the American cockroach

The pharmacokinetic behavior of cis and trans isomers of pyrethroids after topical application to adult male American cockroaches (Periplaneta americana L.) was examined using the insecticidal 1R,cis (NRDC 157; I) and 1R,trans (NRDC 163; III) isomers of 3-phenoxybenzyl 3-(2,2-dibromovinyl)-2,2-dimethylcyclopropanecarboxylate and their insecticidally inactive 1S,cis (II) and 1S,trans (IV) enantiomers. III was detected in the hemolymph, nerve cord, and fat body of animals receiving a just-lethal dose (0.6 μg/g) within 2 hr after topical application. The pattern of accumulation of III was similar to that previously determined for I at a just-lethal dose, but quantitative comparisons revealed that the cis isomer I was delivered from the site of application to the nerve cord eightfold more efficiently than III. The inactive enantiomers II and IV were administered at the same dose (0.60 μg/g) to compare the rates of cuticular penetration and in vivo degradation of cis and trans isomers in the absence of intoxication symptoms. II penetrated somewhat more rapidly than IV and achieved higher levels in whole body extracts, but there was no difference between isomers in the rates of overall degradation of applied pyrethroid. These studies demonstrated a twofold difference in internal availability, but they did not reveal sufficient pharmacokinetic selectivity to explain the large difference in the access of I and III to the nerve cord observed in the tissue uptake studies. III was hydrolyzed by nerve cord homogenates in vitro at a rate 5 times greater than that of I, but neither ester underwent detectable oxidative metabolism in this system. Local selective metabolism by the nerve cord is suggested as an important determinant of the levels of parent pyrethroid found in this tissue. These results demonstrate the significance of pharmacokinetic selectivity in determining the relative access of topically applied cis- and trans-substituted pyrethroids to the insect nervous system.     

Structural Effects of N-Arylcarbamoylpyrazolines on Calcium Uptake in Rat Brain Synaptosomes

N-Arylcarbamoylpyrazolines with various substituents at the para position of the carbamoyl benzene ring inhibited ATP-dependent Ca²⁺-uptake in synaptosomes prepared from the rat brain. The activity of these compounds was evaluated as log(1/I₅₀), the reciprocal logarithm of half inhibitory concentration, I₅₀ (m ), from the concentration–response curve for the inhibition of Ca²⁺-uptake. Among the compounds tested, methyl 3-(4-chlorophenyl)-4-methyl-1-[N-(4-trifluoromethylphenyl)carbamoyl]-2-pyrazoline-4-carboxylate was the most potent, the I₅₀ value of which as 9·12×10⁻⁷ m . Variations in the activity in terms of log(1/I₅₀) were quantitatively analysed using a substituent parameter, showing that the higher the electron-withdrawing effect of the substituent, the higher was the activity. The substituent effects were similar to those on insecticidal activity against the Americal cockroach. The higher the inhibitory activity against Ca²⁺ uptake, the higher seemed to be the insecticidal activity. Methyl(4S) - 3 - (4 - chlorophenyl) - 4 - methyl - 1 - [N - (4 - chlorophenyl)carbamoyl] - 2 - pyrazoline -4-carboxylate had higher inhibitory activity against Ca²⁺-uptake and higher in-secticidal activity than the R-isomer, but the difference was greater in theCa²⁺-uptake system.     

Action of cismethrin and deltamethrin on functional attributes of isolated presynaptic nerve terminals from rat brain

Isolated presynaptic nerve terminals (synaptosomes) prepared from rat brain were used to evaluate the actions of a tremor (T)-syndrome (cismethrin) and a choreoathetosis-salivation (CS)-syndrome (deltamethrin) pyrethroid on the functional attributes of synaptosomes by measuring calcium influx and endogenous neurotransmitter (l-glutamate) release with fluorescent assays. Both cismethrin and deltamethrin stimulated calcium influx, however, only deltamethrin enhanced Ca²⁺-dependent neurotransmitter release and its action was stereospecific, concentration-dependent, stimulated by depolarization, unaltered by tetrodotoxin, and blocked by ω-conotoxin GVIA. Our results delineate a separate action of deltamethrin on presynaptic nerve terminals from that elicited by cismethrin and implicate Ca_v2.2 calcium channels as target sites for deltamethrin that is consistent with the observed in vivo release of neurotransmitter at the onset of convulsive symptom caused by CS-syndrome pyrethroids. This information will allow a more complete understanding of the molecular and cellular nature of pyrethroid-induced neurotoxicity and expands our knowledge of the structure–activity relationships of pyrethroids in regards to their action on voltage-sensitive calcium channels.     

Two classes of pyrethroid action in the cockroach

Pyrethroids are divided into two classes (Types I and II) based on their effects on the cercal sensory nerves recorded in vivo and in vitro and on the symptomology they produce in dosed cockroaches, Periplaneta americana. Type I compounds include pyrethrins, S-bioallethrin, [1R,cis]resmethrin, kadethrin, the 1R,trans and 1R,cis isomers of tetramethrin, phenothrin, and permethrin, and an oxime O-phenoxybenzyl ether. Electrophysiological recordings from dosed individuals reveal trains of cercal sensory spikes and sometimes also spike trains from the cercal motor nerves and in the CNS. Low concentrations of these pyrethroids act in vitro to induce repetitive firing in a cercal sensory nerve following a single electrical stimulus. This in vitro measurement, standardized for evaluating structure-activity relationships, shows that only 1R, insecticidal isomers are highly effective neurotoxins. The most potent compounds on the isolated nerve are [1R,trans]- and [1R,cis]tetramethrin, each active at 3 × 10^?13M. The poisoning symptoms of Type I compounds are restlessness, incoordination, hyperactivity, prostration, and paralysis. Type II compounds include [1R,cis,αS]- and [1R,trans,αS]cypermethrin, deltamethrin, and [S,S]fenvalerate. These α-cyanophenoxybenzyl pyrethroids do not induce repetitive firing in the cercal sensory nerves either in vivo or in vitro; moreover, they cause different symptoms, including a pronounced convulsive phase. Two other pyrethroids with an α-cyano substituent, i.e., fenpropathrin and an oxime O-α-cyanophenoxybenzyl ether, are classified as Type I based on their action on a cercal sensory nerve but the symptoms with these compounds resemble Type II. The two classes of pyrethroid action evident with the cockroach are discussed relative to their neurophysiological effects and symptomology in other organisms.     

DDT inhibition of Ca-ATPase of the peripheral nerves of the American lobster

A Ca-ATPase highly sensitive to DDT has been found in peripheral nerves of lobster, Homarus americanus. The observed I₅₀ for this Ca-ATPase toward DDT is on the order of 10^?9M and has a low temperature quotien. The ATPase seems to work over a wide range of ATP concentrations. It is stimulated by Ca²⁺ (optimum 0.1 mM) and shows sensitivity to Na⁺ (optimum 20 mM) and K⁺ (optimum 20 mM) ions. The fact that it is highly sensitive to ruthenium red (I₅₀ = 10 μM) suggests that the enzyme is a Ca-ATPase and not a Mg-ATPase. Furthermore the enzyme is not a CaMg-ATPase, since the presence of Mg²⁺ along with Ca²⁺ ion is not required for its activity. DDT is found to inhibit the process of Ca²⁺ binding in the axonic membrane only in the presence of ATP. The evidence suggests the important role of the Ca-ATPase in regulating Ca²⁺ concentrations in the membrane. The possible significance of DDT inhibition of the ATPase is discussed.     

DDT and pyrethroids: Receptor binding and mode of action in the house fly

The mode of action of DDT and pyrethroids was investigated in the house fly, Musca domestica L, using drug:receptor binding techniques. Both in vivo and in vitro binding studies demonstrated the existence of membrane receptors which bind specifically to [¹⁴C]DDT and [¹⁴C]cis-permethrin. The receptors show properties to be expected of a critical target site of these insecticides. These include negative temperature correlation with binding, relatively nonsensitivity to DDE, and sensitivity to Ca²⁺. The receptor sites are readily saturated at 45–90 nM [¹⁴C]DDT and have an apparent disassociation constant (K_d) of 12.2 nM. The maximum number of binding sites was estimated to be 17 pmol DDT/mg membrane protein (0.34 pmol/house fly head). Competition studies showed DDT, cis-permethrin, and cypermethrin bind to the same receptor but not at precisely the same site. The addition of Ca²⁺ to the incubation buffer significantly inhibited the binding of both [¹⁴C]DDT and [¹⁴C]cis-permethrin, suggesting the receptor binding is Ca²⁺ sensitive and may have a role in ion conductance.     

Effects of glyphosate on uptake,translocation, and intracellular localization of metal cations in soybean (Glycine max) seedlings

Root-fed or foliar-applied glyphosate [N-(phosphonomethyl) glycine] reduced uptake and translocation of Ca²⁺ and Mg²⁺, but not K⁺, by soybean [Glycine max (L.) Merr. “Hill”] seedlings as measured by atomic absorption spectrometry. Histochemical techniques revealed that cells of secondary roots that were formed after glyphosate treatment were deficient in Ca²⁺. The relative distribution of Ca²⁺ in control root and leaf cells was mitochondria > plastids > cytoplasm. Glyphosate severely reduced Ca²⁺ content and eliminated intracellular concentration of Ca²⁺ in the mitochondria of both root and leaf cells. Glyphosate had no effects on K⁺ distribution at the ultrastructural level. These results support the view that glyphosate effects on distribution of divalent metal cations may be related directly or indirectly to the phytotoxicity of the herbicide.     

Cholinergic receptors of the central nervous system of insects

Concentrated particulate preparations were made from housefly heads and the nerve cords of the American and Madagascar cockroaches. Macromolecules present in these preparations bound ³H-nicotine reversibly and with high affinities (3, 1.1, and 1.5 μM, respectively). Binding of ACh to the macromolecules in the preparation of houseflies and Madagascar cockroach was determined by inhibition of ³H-nicotine binding, and was found to be of much lower affinity than that of nicotine.There was a 2 × purification of the nicotine-binding macromolecules in this particulate preparation of housefly heads as compared to an earlier preparation of supernatant of 100,000g. Nicotine binding to this particulate preparation was blocked also by d-tubocurarine and atropine demonstrating the nicotinic and muscarinic nature of these nicotine-binding macromolecules. Prior exposure of the preparation to trypsin and chymotrypsin reduced nicotine binding by 58 and 68%, respectively.The relationship of these nicotine and ACh binding macromolecules to ACh-receptors is discussed.     

Deltamethrin: A neurophysiological study of the sites of action

Recent experiments on the mode of action of pyrethroids have indicated that those pyrethroids containing an α-cyano phenoxybenzyl group may act on GABA-mediated chloride channels. The crayfish stretch receptor neuron provides a useful preparation for examining the effects of pyrethroids on these channels and on sodium channels. The lowest concentration of deltamethrin to have an effect on sodium channels was 10⁻¹² M, but the response of the preparation to GABA appeared to be unaffected by concentrations of deltamethrin up to 10⁻⁷ M. Although 10⁻⁶ M deltamethrin had a slight effect on the GABA response of the dactyl abductor muscle, it appears that the majority of the effects of cyano pyrethroids in invertebrates could be accounted for solely by their action on sodium channels.     

Inhibition of epoxidation of methyl farnesoate to juvenile hormone III by cockroach corpus allatum homogenates

Radiolabeled methyl farnesoate is epoxidized to juvenile hormone III by an NADPH-dependent reaction occurring in corpus allatum homogenates from the cockroach Blaberus giganteus L. Most of the enzymatically produced juvenile hormone has the 10R configuration described for previously isolated natural juvenile hormones. The unnatural 2Z geometrical isomer of methyl farnesoate is epoxidized by the above system faster than the natural 2E isomer. Several series of chemicals known to be inhibitors of mixed-function oxidases were surveyed as inhibitors of methyl farnesoate epoxidation. The anti-juvenile hormone precocene II caused negligible inhibition at 1 · 10^?4M, whereas the best inhibitor was o-bromophenoxymethyl-imidazole with an apparent I₅₀ of 4 · 10^?7M. None of the inhibitors tested were potent morphogenetic agents on Tenebrio molitor pupae, and they failed to cause precocious development of Oncopeltus fasciatus nymphs. The inhibition of in vitro juvenile hormone biosynthesis suggests the possibility of finding an anti-hormone which acts by blocking juvenile hormone biosynthesis.     

Structure-activity relationships of pyrethroids based on direct action on nerve

The structure-activity relationships of 30 synthetic pyrethroids have been studied by measurements of their direct action on isolated crayfish nerve cord. The concentrations of pyrethroids used to increase the frequency of spontaneous discharges to 200% of the control (NS₂₀₀), those to decrease the frequency back to the control level, and those to further decrease the frequency to 10% of the control were measured as indexes of the nerve action. These values did not necessarily run parallel with those for the lethal dose 50 or the knock-down 50. Large differences in NS₂₀₀ were found among optical isomers of tetramethrin and phenothrin, and there was a synergism with respect to the nerve stimulating action between (+) and (?) forms of tetramethrin. (+)-trans-Permethrin was unique in that it exhibited a potent insecticidal action with a very weak nerve action. It is necessary to compare the direct action on the target site for the purpose of establishing the true structure-activity relationships of synthetic pyrethroids.     

Differential response of plant cell membranes to some vinyl organophosphorus insecticides

The response of plant cell membranes to vinyl organophosphorus insecticides was studied by determining the release of intracellular materials as a measure of membrane permeability and the uptake of [1-¹⁴C]-α-aminoisobutyric acid as a measure of active transport. A pretreatment with chlorfenvinphos (2-chloro-1-(2,4-dichlorophenyl)-vinyl diethyl phosphate) at 0.4 mM or higher concentrations increased the leakage of cell contents from the tissues of pea, corn, and beet, but two other vinyl organophosphorus insecticides, tetrachlorvinphos (2-chloro-1-(2,4,5-trichlorophenyl)-vinyl diethyl phosphate) and phosphamidon (2-chloro-2-diethyl carbamoyl-1-methyl vinyl dimethyl phosphate), had no effect. Simultaneous addition of phospholipids, β-sitosterol, or Ca²⁺ inhibited in varying degrees the chlorfenvinphos-induced permeability, suggesting that the leakage of cell contents might be due to alteration in membrane structure.Chlorfenvinphos or tetrachlorvinphos at 0.1 mM or higher concentrations inhibited the uptake of α-aminoisobutyric acid. The degree of inhibition varied with different plant species. The inhibition was competitive and was not prevented by phospholipids. However, Ca²⁺ and other divalent cations were stimulatory to the uptake of α-aminoisobutyric acid, either in the presence or absence of chlorfenvinphos. Chlorfenvinphos also inhibited plant growth in tobacco callus and pea stem assays.From the differences in effective concentration, structural requirement, and interaction with phospholipids, it is suggested that chlorfenvinphos affected the membrane permeability and active transport by different mechanisms. These effects probably underlie its inhibitory action on plant growth.