Cooperative inhibition of acetylcholinesterase activities by hexachlorophene in human erythrocytes.

Hexachlorophene (HCP), pentachlorophenol (PCP), 2,4,5-trichlorophenol (2,4,5-TCP) and 2,4,6-trichlorophenol (2,4,6-TCP) all hemolyzed washed human erythrocytes and inhibited acetylcholinesterase (AchE) activities in erythrocyte membrane. HCP was much more potent in either effect than any other compound examined. The inhibition of AchE activities by HCP was reversed on adding albumin. The dose-response curves by HCP and PCP were sigmoidal, indicating cooperative inhibition, while those by 2,4,5-TCP and 2,4,6-TCP were not. Furthermore, the cooperativity of the inhibition by HCP was greater than by PCP. Differing from that by PCP, the cooperativity of inhibition increased depending on the temperature (13, 25, 37 degrees C) and decreased when the membrane was treated with Triton X-100. The cooperativity was also decreased in the presence of albumin. On a Scatchard plot analysis, erythrocyte membranes appeared to have multiple binding sites of different affinities for HCP; binding of HCP to the low affinity site [dissociation constant (Kd) 4.7 x 10(-5) M] seemed to be responsible for the observed cooperative inhibition of AchE activities. Neither neostigmine nor fenitrothion altered the cooperativity. HCP seems to be the most potent cooperative inhibitor of AchE in human erythrocyte membranes known to date. HCP may be useful to examine AchE and milieu in human erythrocyte membranes.

Effect of urinary alkalinisation and acidification on the tissue distribution of hexachlorophene in rats.

1. Urinary alkalinisation may be helpful in treating acute poisoning with uncouplers of oxidative phosphorylation containing a phenolic hydroxyl (pKa 4-6) or other acidic moiety. 2. We studied the effects of urine alkalinisation and acidification on the tissue distribution of hexachlorophene (HCP, pKa 5.7) in male Sprague Dawley rats (10 rats/group). 3. Ammonium chloride (10 mL kg-1, 2% m/v) or sodium bicarbonate (10 mL kg-1, 2% m/v) were administered by gavage on three occasions over 24 h, prior to a single gavage dose of HCP (180 mg kg-1). Controls received aqueous sodium chloride (10 mL kg-1, 0.9% m/v) followed by either HCP (180 mg kg-1) or vehicle alone. 4. Urine pH, body mass and body temperature were monitored during the study and, at the conclusion of the experiment (12 h post-HCP dose), organ mass (liver, kidney, brain), and plasma, urine and tissue HCP concentrations were measured. 5. No clinical features of toxicity were observed in any group. However, sodium bicarbonate significantly reduced median HCP in liver--median plasma and kidney HCP concentrations were also reduced but not significantly. Conversely, ammonium chloride significantly increased median HCP concentrations in liver and kidney--median plasma HCP was also increased but not significantly. 6. The results provide some support for the hypothesis that blood pH influences the tissue distribution of uncouplers of oxidative phosphorylation containing an acidic moiety. Urinary alkalinisation may be useful in treating acute poisoning with these compounds.

Effect of short-term exposure to hexachlorophene on rat brain cell specific marker enzymes.

Seven cell specific marker enzymes in brain and optic nerve and morphological evaluation by light microscopy were used to characterize the neurotoxicity associated with exposure of rats to hexachlorophene (HCP; 40 mg/kg/day, po, for 9 days). In vitro exposure to HCP at concentrations up to 100 microM had no direct inhibitory effect on the marker enzymes, validating their use in evaluating brain function in vivo. Rats exhibited a reduction in body weight gain, weakness, and ataxia of the hind limbs by the ninth day of HCP exposure. At 24 hr following the last day of exposure to HCP, the activities of the three neuron specific enzymes, glutamic acid decarboxylase, tyrosine hydroxylase, and choline acetyltransferase, in rat brain were unchanged from those of the vehicle-treated control group. Of the two astroglial enzyme markers measured, a small but significant increase was observed in the activity of nonneuronal enolase in the cerebellum and glutamine synthetase in the hippocampus of HCP-treated rats. The optic nerve appeared to be the most sensitive tissue in that the activity of both the astroglial marker, nonneuronal enolase, and the myelin marker, 2',3'-cyclic nucleotide phosphohydrolase, was significantly decreased following HCP exposure. This decrease in enzyme activity is consistent with the histological observations demonstrating extensive vacuolization and edema in the optic nerve after exposure to HCP.

Thermotropic properties of human erythrocyte membrane proteins as affected by hydroxychloroaromatic compounds.

The thermal stability of the anion transport protein (band 3) and other proteins of the human erythrocyte membrane, as influenced by hydroxychloroaromatic (HO-Cl2-Ar) compounds, was studied by differential scanning calorimetry. Various hydroxychlorodiphenyl ethers (HO-Clx-DPEs) and hexachlorophene, but not pentachlorophenol, caused a marked decrease in the thermal stability of band 3. Most of the other calorimetric transitions of the erythrocyte membrane were only slightly affected. The activity of HO-Clx-DPEs toward lowering the transition temperature of band 3 generally increased with the degree of chlorination, and was somewhat dependent on the position of hydroxyl substitution. At higher concentrations of HO-Clx-DPEs, there was a decrease in the enthalpy change and a broadening of the endothermic transition of band 3. The order of effectiveness of these compounds, as determined from band 3 denaturation temperatures, was similar to the order of potency previously observed for hemolysis of human erythrocytes.

Vaginal absorption of hexachlorophene during labor.

Surgical soap that contains hexachlorophene is used as an antiseptic lubricant for vaginal examinations during labor in some centers. Theoretically, hexachlorophene can be absorbed from the vaginal mucosa and be potentially toxic to the fetus and neonate. To evaluate vaginal absorption and placental transfer of hexachlorophene, we measured levels in mixed arterial/venous cord serum and postpartum maternal serum in 28 women whose vaginal examinations were lubricated with pHisoHex during labor. The serum of 12 women had detectable levels of hexachlorophene, with a high level of 942 ng/ml. Cord serum had detectable levels in nine neonates, with a high level of 617 ng/ml. The conclusion is that hexachlorophene from vaginal lubricants is variably absorbed from the vaginal mucosa, and appreciable amounts can be detected in maternal and cord serum. Because of the potential for neonatal hexachlorophene toxicity, we recommend the use of alternative lubricants for pelvic examinations during labor.

The effect of hexachlorophene on the optic nerve and visual faculty in Beagle dogs after prolonged dermal application.

In a systemic tolerance study in Beagle dogs the effect of an ointment, containing 1, 3 or 10% hexachlorophene (HCP), applied dermally, on the optic system over a period of 12 weeks was investigated. Besides an irreversible loss of visual faculty during treatment with 3 and 10% HCP, a permanent mydriasis, peripapillary exudations and other alterations of the ocular fundus were observed at the same dose levels, suggesting that HCP has a strong affinity to the optic nervous system in dogs without clear-cut correlations to HCP plasma levels.

Effects of halogenated antibacterials on the erythrocyte membrane.

The influence of halogenated antibacterials on membrane structure and function was investigated using the human erythrocyte membrane as a model. Measurements of hemolysis in isotonic solution, altered membrane permeability, and stabilization against hypotonic hemolysis resulting from exposure of erythrocytes to halogenated antibacterials served as criteria of membrane-related effects. The hemolytic potency of the compounds studied differed widely, decreasing in the order hexachlorophene (HCP) greater than 2,2'-methylenebis(3,5-dichlorophenol) (3,5-TCP) greater than 2,2'-methylenebis(3,4-dichlorophenol) (3,4-TCP) approximately equal to 2,2'-methylenebis(4,6-dichlorophenol) (4,6-TCP) greater than 2,2'-methylenebis(4-chlorophenol) (DCP) greater than 3,4'-tribromosalicylanilide (TBS) approximately equal to 3,3',4',5-tetrachlorosalicylanilide (TCSA). Each of the antibacterials tested stabilized the erythrocyte against hypotonic hemolysis, although there were marked differences in the concentrations required to afford maximum stabilization as well as in the extent of protection. The observed order of protective effectiveness was HCP greater than 3,4-TCP greater than 4,6-TCP greater than DCP approximately equal to TCS greater than TBS. As shown by measurements of the first-order rate constant for K+ efflux, the permeability of the erythrocyte membrane to K+ was increased upon exposure to the antibacterials, with the effect of HCP greater than 3,4-TCP greater than 4,6-TCP approximately equal to 3,4-TCP greater than DCP approximately equal to TCS greater than TBS. These results indicate that halogenated antibacterials are capable of perturbing mammalian membranes, a feature which may account in part for their mammalian toxicity.

Studies on hexachlorophene-induced myelin lesions in the trigeminal root transitional region in developing and adult mice.

Hexachlorophene (HCP)-induced intramyelinic vacuolation was studied in the transitional region of the trigeminal root of suckling and adult mice. HCP produced an extensive vacuolation in the central compartment of the region in both suckling and adult mice, while in the peripheral compartment myelin lesions were only seen in mice less than 16 days of age. Gas chromatographic measurements showed that in suckling mice the blood concentration of HCP decreased with age, apparently reflecting a faster elimination of HCP from the blood. By substantially increasing the HCP dose, higher blood concentrations were obtained in adult than less the 16-day-old mice; in spite of this, PNS myelin changes occurred only in the latter. Thus, by observing the HCP effect on the transitional region, where CNS and PNS directly meet, it is concluded that CNS of both suckling and adult mice is more severely effected by HCP than PNS, and that the reaction of the PNS myelin is age-dependent during the period of myelinogenesis; it is particularly vulnerable to a cytotoxic edema inducing substance.

Micromethod for measuring hexachlorophene in whole blood by gas-liquid chromatography.

We describe a micromethod for measuring hexachlorophene by use of gas-liquid chromatography with a 63Ni electron capture detector. The procedure requires 100 micronl of blood for extractions of hexachlorophene, and dichlorophene is added as an internal standard. CV is 3.4% over the concentration range of 500 to 1300 microng of hexachlorophene per liter of whole blood. This procedure permits repeated measurements of hexachlorophene in newborns who are being washed with soap containing hexachlorophene.

Observations on hexachlorophene-induced paralysis in the cat and its antagonism by hypertonic urea.

Cats given HCP (20 mg/kg) orally each day developed hindlimb paralysis and greatly elevated CSFP (174 mm saline; 19 mm in controls) in 3 to 5 days. "Status spongiosis" was seen in white matter only in sections of brain and cord. There was no dilation of cerebral ventricles, or damage to their ependymal linings or to the arachnoid villi. The neurological picture excluded any but a terminal effect upon cranial nerve function. There appeared to be no damage to neurons, and recovery of survivors was complete within 6 weeks after cessation of HCP administration. Elevated CSFP in paralyzed anesthetized cats was quickly lowered by an average of 256 mm by slow iv administration of 30% urea (2 g/kg in 10% invert sugar). Unanesthetized cats similarly paralyzed were able to stand and walk for up to 4 hr after this treatment. Neither acetazolamide nor prednisolone alone had any effect, nor did coadministration with urea enhance the effect of urea. The HCP lesion does not appear to be inflammatory in origin, nor does it seem to involve ventricular obstruction or overproduction of cerebrospinal fluid. The reappearance of paralysis about 4 hr after osmotic diuresis, which corresponds with the elimination of urea, suggests that prolonged iv infusion with urea or a similar osmotically active substance may have significant clinical value in the management of HCP poisoning.

Experimental hexachlorophene intoxication in young swine.

Hexachlorophene (HCP) intoxication in swine was studied as a possible model of HCP poisoning in human beings. Swine were topically or orally given HCP each day, and observations were made on central nervous system function, hematologic measurements, serum chemical analyses, necropsy, microscopic examination of tissues, and concentrations of HCP residues in blood and tissue. Intoxication was observed in orally exposed swine, but the syndrome was not consistently produced in topically exposed swine. Signs and microscopic lesions were all related to dysfunction of the central nervous system, e.g., incoordination, paresis, and status spongiosus. Occurrence of signs and lesions, mortality rates, and concentrations of HCP residue were positively correlated with the dosage of HCP given.