Патоморфологія плодової та зрілої печінки при інтоксикації свинцем і в умовах корекції: огляд експериментальних даних

H. V. Dovhal; M. A. Dovhal; O. A. Romanenko

doi:10.14739/2310-1237.2019.1.166497

Authors

H. V. Dovhal State Establishment “Dnipropetrovsk Medical Academy of Health Ministry of Ukraine”, Dnipro,
M. A. Dovhal State Establishment “Dnipropetrovsk Medical Academy of Health Ministry of Ukraine”, Dnipro, Ukraine,
O. A. Romanenko Dnipropetrovsk Institute of Traditional & NonTraditional Medicine, Dnipro, Ukraine,

DOI:

https://doi.org/10.14739/2310-1237.2019.1.166497

Keywords:

fetal liver, mature liver, pathology, heavymetal poisoning, therapies investigational

Abstract

Lead is one of the most widespread pollutant which alters the mature liver and is especially harmful for the fetal liver. The typical alterations in the mature liver after the lead exposure are the hypertrophy and vacuolization of hepatocytes, circulatory disorders, mononuclear cellular infiltration. The morphological changes in the liver during prenatal development under the maternal lead treatment are inhibition of hematopoiesis, dystrophy of hepatocytes, disturbances in the liver architecture, its vessels and stroma with a gradient of pathological changes toward the peripheral parts of the organ. The manifestations of liver alteration after birth become deeper with age and develop to the necrosis, edema and inflammation. The biochemical disturbances in the liver are the decrease in the activity of enzyms of energy metabolism, inhibition of protein and nucleic acids synthesis, imbalance of the lipid peroxide oxidation system, and the increasing of oxidative stress with the further alteration of the membranes of the endothelium, red blood cells, hepatocytes, as well as mitochondrial membrane. The changes in expression of the immunohistochemical markers can differentiate the processes in the liver, which are relatively stable or sensitive to lead, especially in prenatal development, whereas the biochemical parameters are valuable for estimation of the liver damage in postnatal life. The immunohistochemical changes under the lead treatment reflect the inhibition in protein synthesis such as albumin and cytokeratins, as well as growth factors, nitric oxide synthases and matrix metalloproteinases expression; whereas the expression of apoptotic markers increases. The search for the natural products, dietary supplements and drugs with the protective properties is ongoing and covers the wide spectrum of agents, including vitamins, micro- and macroelements, antioxidants, chelating agents, natural extracts, proteins, sorbents and complex-producing drugs. The immunohistochemical markers as well as biochemical parameters can be used to prove the efficacy of protectants for chronic lead intoxication.

References

Aleksijchuk, V. D., Sokurenko, L. M., & Omelchuk, S. T. (2015) Osoblyvosti vplyvu nanochastok sulfidu ta nitratu svyntsiu na orhanizm eksperymentalnykh tvaryn u rizni periody doslidzhennia ta metody korektsii yikh nehatyvnoi dii [Peculiarities of lead sulphide and nitrate nanoparticles influence on organisms of experimental animals in different research periods and methods of its negative impact correction]. Svit medytsyny ta biolohii, 54(4), 97–100. [in Ukrainian].

Belska, Iu. O (2016) Osoblyvosti morfolohii fetalnoi pechinky pid vplyvom atsetatu svyntsiu ta za umov korektsii mikroelementamy [Morphological features of fetal liver under the influence of lead acetate and in case of correction by microelements].Visnyk problem biolohii i medytsyny, 128(2), 327–330. [in Ukrainian].

Vylegzhanina, T.A. (2015) Vliyanie acetata svinca na razvitie pecheni krys [The influence of lead acetate on development of liver of rats].Medicinskij zhurnal, 2(52), 44–48. [in Russian].

Dovgal, G. V. (2014) Vplyv atsetatu svyntsiu na vyzhyvanist zarodkiv shchuriv ta mozhlyvist korektsii [Influence of Lead Acetate on Rat Embryons Survival and under the Correction]. Visnyk problem biolohii i medytsyny, 105(1), 93–96. [in Ukrainian].

Dovgal, G.V. (2014) Morfolohichni zminy v rozvytku pechinky shchuriv pry vplyvi atsetatu svyntsiu ta za umov korektsii v prenatalnomu periodi [Morphological changes in the development of rat liver after the lead acetate treatment and under the correction in the prenatal period].Ukrainskyi morfolohichnyi almanakh, 12(1), 42–44. [in Ukrainian].

Dovgal, G. V. (2013) Morfolohichni zminy v rozvytku pechinky shchuriv pry vplyvi atsetatu svyntsiu ta za umov korektsii v prenatalnomu periodi [Morphological and molecular biological characteristics of prenatal development of rat liver].Ukrainskyi morfolohichnyi almanakh, 11(4), 22–26. [in Ukrainian].

Dovgal, G. V. (2014) Rol kyslykh hlikozaminohlikaniv v prenatalnomu rozvytku pechinky shchuriv [The role of acid glycosaminoglycans in the prenatal development of the rat liver].Visnyk problem biolohii i medytsyny, 109(2), 257–259. [in Ukrainian].

Koshkina, V. S., Kotlyar, N. N., Kotelnikova, L. V., & Dolgushina, N. A. (2013) Kliniko-toksikologicheskaya kharakteristika svinca i ego soedinenij [Clinical and toxicological properties of lead and its compounds] Medicinskie novosti, 1, 23–26. [in Russian].

Romanenko, A. A., Dovgal, G. V., & Dovgal, M. A. Imunohistokhimichne doslidzhennia pechinky shchuriv v piznomu prenatalnomu periodi pid vplyvom atsetatu svyntsiu ta za umov korektsii [The Immunohistochemical Examination Of RatLiver In The Late Embryonic Period Under The Influence Of Lead Acetate And After Correction].Visnyk problem biolohii i medytsyny, 102(3), 158–161. [in Ukrainian].

Shubina, O. S., & Kireeva, Yu. V. (2008) Vliyanie svincovoj intoksikacii na morfofunkcional'noe sostoyanie sistemy placenta-plod [Influence of Lead Intoxication on Morphofunctional Condition of System of Patient-Fetus]. Vestnik Orenburgskogo gosudarstvennogo universiteta,6(88), 118–121. [in Russian].

Metwally, E.S.A.M., Negm, F.A., El-din, R.A.S., & Nabil, E.M. (2015) Anatomical and histological study of the effect of lead on hepatocytes of albino rats. International Journal of Biomedical Materials Research, 3(4), 34–45. doi: 10.11648/j.ijbmr.20150304.11

Velaga, M. K., Daughtry, L. K., Jones, A. C., Yallapragada, P. R., Rajanna, S., &Rajanna, B. (2014) Attenuation of lead-induced oxidative stress in rat brain, liver, kidney and blood of male Wistar ratsby Moringa oleifera seed powder. J Environ Pathol Toxicol Oncol, 33(4), 323–37.

Mohammadi, M., Ghaznavi, R., Keyhanmanesh, R., Sadeghipour, H.R., Naderi, R., &Mohammadi, H. (2014) Caloric restriction prevents lead-induced oxidative stress and inflammation in rat liver.Scientific World Journal,5. doi: 10.1155/2014/821524.

Hassan, R.A., Amin, D.M.,Rahmy, N.A.,Hatem, M. E., & Dessouky, M. I. (2012) Clinicopathological, histopathological and immunological studies on animals exposed to lead and cadmium under experimental conditions. N Y Sci J, 5(12), 120–136.

Nwokocha, C.R., Nwokocha, M.I., Aneto, I., Obi J., Udekweleze, D.C., Olatunde B., et al.(2012) Comparative analysis on the effect of Lycopersicon esculentum (tomato) in reducing cadmium, mercury and leadaccumulation in liver. Food Chem Toxicol, 50(6), 2070–3. doi: 10.1016/j.fct.2012.03.079.

Nwokocha, C. R., Nwokocha, M. I., Owu, D. U., Obi, J., Olatunde, B., Ebe, C., et al.(2012) Comparative analysis on the effect of palm oil (Elaeis guineensis) in reducing cadmium and lead accumulation in liver of Wistar rats. Pharmacognosy Res,4(4), 214–8. doi: 10.4103/0974-8490.102266.

Nwokocha, C. R., Owu, D. U., Nwokocha, M. I., Ufearo, C. S., &Iwuala, M. O.(2012) Comparative study on the efficacy of Allium sativum (garlic) in reducing some heavy metal accumulation in liver of wistar rats. Food Chem Toxicol, 50(2), 222–6. doi: 10.1016/j.fct.2011.11.003.

Nwokocha, C. R., Owu, D. U., Ufearo, C. S., &Iwuala, M. O.(2011) Comparative study on the efficacy of Garcinia kola in reducing some heavy metal accumulation in liver of Wistar rats. J Ethnopharmacol, 135(2), 488–91. doi: 10.1016/j.jep.2011.03.049.

Nwokocha, C. R.,Owu, D. U., Nwokocha, M. I., Ufearo, C. S., &Iwuala, M. O. (2012) Comparative study on the hepatoprotection to heavy metals of Zingiber officinale. Pharmacognosy Res, 4(4), 208–13. doi: 10.4103/0974-8490.102263.

Gargouri, M., Magné, C., Ben Amara, I., Ben Saad, H., & El Feki, A. (2017) Dandelion-enriched diet of mothers alleviates lead-induced damages in liver of newborn rats. Cell Mol Biol., 63(2), 67–75. doi: 10.14715/cmb/2017.63.2.10.

Dovhal, H. V., Dovhal, M. A., & Romanenko, O. A. (2017) The expression of immunohistochemical markers in the fetal liver after maternal exposure of lead acetate and under the correction. Science Rewiew, 7, 17–19.

Allouche, L., Hamadouche, M., Touabti, A., & Khennouf, S. (2011) Effect of long term exposure to low or moderate lead concentrations on growth lipid profile and liver function in albino rats. Advan Biol Res, 5(6), 339–47.

Hanan, A. A., & Riham, M. R. (2012) Effect of lead toxicity on cytogenisity, biochemical constituents and tissue residue with protective role of activated charcoal and casein in male rats. Environ. Australian Journal of Basic and Applied Sciences, 6(7), 497–509.

Heidarian, E., & Rafieian-Kopaei, M. (2013) Protective effect of artichoke (Cynara scolymus) leaf extract against lead toxicity in rat. Pharm Biol, 51(9), 1104–9. doi: 10.3109/13880209.2013.777931.

Hegazy, A., & Fouad, U. (2014) Evaluation of lead hepatotoxicity; histological, histochemical and ultrastructural study. Forensic Medicine and Anatomy Research, 2, 70–79. doi: 10.4236/fmar.2014.23013.

Haouas, Z., Sallem, A., Zidi, I., Hichri, H., Mzali, I., & Mehdi, M. (2014) Hepatotoxic effects of lead acetate in rats: histopathological and cytotoxic studies. J Cytol Histol, 5, 256. doi: 10.4172/2157-7099.1000256.

Khotimchenko, M., Makarova, K., Khozhaenko, E., & Kovalev, V. (2017) Lead-binding capacity of calcium pectates with different molecular weight. Int J Biol Macromol, 97, 526–535. doi: 10.1016/j.ijbiomac.2017.01.065.

Liu, C. M., Ma, J. Q., & Sun, Y. Z. (2011) Protective role of puerarin on lead induced alterations of the hepatic glutathione antioxidant system and hyperlipidemia in rats. Food Chem Toxicol, 49, 3119–27. doi: 10.1016/j.fct.2011.09.007

Liu, C. M., Ma, J. Q., & Sun, Y. Z. (2012) Puerarin protects the rat liver against oxidative stress-mediated DNA damage and apoptosis induced by lead. Exp Toxicol Pathol., 64(6), 575–82. doi: 10.1016/j.etp.2010.11.016.

Zhu, M., Fitzgerald, E. F., Gelberg, K. H., Lin, S., & Druschel, C. M. (2010) Maternal low-level lead exposure and fetal growth. Environ Health Perspect, 118(10), 1471–1475. doi: 10.1289/ehp.0901561

Mehana, E. E., Meki, A. M. A., & Fazili, K. M. (2012) Ameliorated effects of green tea extract on lead induced liver toxicity in rats. Exp Toxicol Pathol, 64(4), 291–5. doi: 10.1016/j.etp.2010.09.001.

Mohamed, W. A., Abd-Elhakim, Y.M., & Farouk, S. M. (2016) Protective effects of ethanolic extract of rosemary against lead-induced hepato-renal damage in rabbits. Exp Toxicol Pathol, 68(8), 451–61. doi: 10.1016/j.etp.2016.07.003.

Elgaml, S. A., Khalil, R., Hashish, A., & El-Murr, A. (2015) Protective effects of selenium and alpha-tocopherol against lead-induced hepatic and renal toxicity in Oreochromis Niloticus. J Aquac Res Development, 6(1), 299. doi: 10.4172/2155-9546.1000299.

Gargouri, M., Ben Saad, H., Ben Amara, I., Magné, C., & El Feki, A. (2016) Spirulina exhibits hepatoprotective effects against lead induced oxidative injury in newborn rats. Cell Mol Biol, 62(10), 85–93. doi: 10.14715/cmb/2016.62.10.14

Pathomorphology of fetal and mature liver under the lead intoxication and after the correction: the review of experimental data

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