Diazepam Alters the Ultrastructure of Fetal Atrium in Rat
Main Article Content
Abstract
Diazepam (DZ) is a synthetic minor tranquilizer, used in patients with psychological and psychiatric disorders. It is a relaxing sedative, anticonvulsant and antipsychotic. DZ crosses the human placental barrier in mouse. Young women who are addicted to the drug, if they become pregnant and continue to use it, particularly during the first trimester, expose their children to psychomotor disorders. The purpose of this study was to investigate whether DZ administered during pregnancy induces ultrastructural alterations of fetal mouse myocardium. The group (DZ) of pregnant female mice of the CD-1 strain was treated with a single daily dose of 1.0 mg / kg / pc / sc of day 6 to 17 and a group (C) that received saline solution. On day 18 females of both groups were anesthetized, the fetuses were perfused by intracardiac route with 1 % paraformaldehyde and 2.5 % glutaraldehyde, the heart was removed, the atrium was dissected, fixed in 1 % OsO4, it was immersed in epoxy resin. The fine sections were contrasted with uranyl acetate and lead citrate and observed in a transmission electron microscope. In the myocytes of the fetuses of the DZ group, the sarcomers of the compact myocardium were shorter than those of the C group. Areas with disorganized myofibrils were observed. The sarcoplasmic reticulum of some myocytes had distended and fragmented cisterns, altered mitochondria, and abundant polyribosomes were observed. The changes may be due to the effect of DZ on the synthesis of actin and heavy myosin and on cytoplasmic organelles mediated by peripheral benzodiazepine receptors present on the outer membrane of the mitochondria and associated with voltage-dependent calcium channels. Ultrastructural alterations of the atrial myocardium of fetuses of mice exposed to DZ in utero may have postnatal effects.
References
Andersson, L. C.; Letho, V. P.; Steinman, S.; Bradley, R. A. & Virtanen, L. Diazepam induces mitotic arrest at prometaphase by inhibiting centriolar separation. Nature, 21:291(5812):247-8, 1981.
Anholt, R. R. H.; De Souza, E. B.; Kuhar, M. J. & Snyder, S. H. Depletion of peripheral-type benzodizepine receptors after hypophysectomy in the rat adrenal gland and testis. Eur. J. Pharmacol., 110:41-46, 1985.
Bandman, E.; Walker, C. R. & Strohman, R. C. Diazepam inhibits myoblast fusion and expression of muscle specific protein synthesis. Science.:200(4341):559- 61, 1978.
Breen, P. C. & Stenchever, M. A. Some effects of diazepam on the fine structure of human fibroblasts in tissue culture. Am. J. Obstet. Gynecol., 108(4):520-7, 1970.
Burn, J. M. Effect of maternal diazepam on the newborn. Br. Med. J., 1(6121):1216-7, 1978.
Calvo, D. J.; Ritta, M. N.; Calandra, R. S. & Medina, J .H. Peripheral-type benzodiazepine receptors are highly concentrated in mitochondrial membranes of rat testicular interstitial cells. Neuroendocrinology, 52:350-3, 1990.
Cole, J. O. & Chiarello, R. The benzodiazepines as drugs of abuse. J. Psychiatr. Red., 24(2):135-44, 1990.
Feldman, R. S.; Mayers, J. S. & Quenzer, L. F. Sedativehypnotic and anxiolytic drugs. Principles of Neuropsychopharmacology. 1st ed. Sunderland Sinauer, 1997, pp. 686-729.
Idänpään-Heikkilä, J. E.; Jouppila, P. I.; Poulakka, J. O. & Vorne, M. S. Placental transfer and fetal metabolism of diazepam in early human pregnancy. Am. J. Obstet. Gynecol., 109:1011-6, 1971a.
Idánpáán-Heikkilá, J.E.; Taska, R.J.; Allen, H.A. & Schoolar, J.C. Placental transfer of diazepam 14C in mice, hamster and monkeys. J. Pharmacol. Exp. Therap., 176(3):752-7, 1971b.
Mandelli, M.; Morselli, P. L.; Nordio, S.; Pardi, G.; Principi, N.; Sereni, F. & Tognoni, G. Placental transfer of diazepam and its disposition in the newborn. Clin. Pharmacol. Ther., 17(5):564-72, 1975.
Márquez-Orozco, M. C.; Márquez-Orozco, A. & GazcaRamírez, M. V. Ultrastructural changes in photoreceptors and retinal layers of the mouse exposed to diazepam. Proc. West. Pharmacol. Soc., 35:43-47, 1992.
Márquez-Orozco, M. C.; Gazca-Ramírez, M. V.; De la Fuente-Juárez, G. & Márquez-Orozco, A. Morphological alterations in mouse placenta induced by diazepam. Int. J. Morphol., 32(2):426-31, 2014.
Márquez-Orozco, M. C.; De la Fuente-Juárez, G. & Márquez-Orozco, A. Ultrastructure of fetal mice hepatocytes exposed in utero to diazepam. Int. J. Morphol., 33(4):1436-40, 2015.
Renehan, W. E. & Kulikowski, L. R. R. Abnormal heart development in valium-treated embryo. Biophys. J., 33:244a, 1981.
Scher, J.; Hailey, D. M. & Bread, R. W. The effects of diazepam on the fetus. J. Obstet. Brit. Comm., 82:349-52, 1973.
Stenbach, L. H.; Koechlin. B. A. & Reeder, E. Quinazolines and 1,4 benzodizepines (VIII). The photoisomerization of 7-chloro-2-metilamine-5phenyl-3H-1,4 benzodizepine 4-oxide. J. Org. Chem.,27:4671-2, 1962.
Stenchevert, M. A.; Frankelt, R. B.; Jarvis, J. A. & Veress, K. Some effects of diazepam in human cells in vitro. Am. J. Obstet. Gynecol., 103:836-42, 1969.
Stenchevert, M. A.; Frankelt, R. B. & Jarvis, J. A. Effects of diazepam on chromosomes of human leukocytes in vivo. Am. J. Obstet. Gynecol., 17:456-60, 1970.
Verma, A. & Snyder, S. H. Peripheral type benzodiazepine receptor. Ann. Rev. Pharmacol. Toxicol., 23:307-22, 1989.