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Advances in Animal and Veterinary Sciences

AAVS_MH20170130190101-R1_Hassan

 

 

Research Article

 

Toxicopathological Changes in Internal Organs of Albino Mice after Treatment with Sumithrin

 

Salema Lafta Hassan

Department of Pathology and Poultry Diseases, College of Veterinary Medicine, University of Baghdad Iraq.

 

Abstract | The objective of the present study was to evaluate the toxic effect of sumithrin on the histological state of internal organ and body weight change of mice. Forty adult Swiss Albino mice at the age of two months were divided into four groups. The1st group(G1) was administrated orally with ( 60 mg / kg b.w) of sumithrin daily for 6 weeks, 2nd group(G2) was administrated sumithrin as G1 group and at the same time fed on pellet contains (200 mg/ kg pellet) of beta-glucan for 6 weeks. 3rd group (G3)was fed with beta-glucan as 2nd group. 4rd group (G4) was considered as control negative.At end of the experiments (6 weeks), all animals were sacrificed and Specimens were taken from internal organs like liver, kidney, spleen, heart and brain. The tissues were kept in 10% formaldehyde solution, for fixation, and then processed routinely by using the histokinete. Tissue sections were embedded in paraffin blocks, and sectioned by microtome and stained with hematoxylin and eosin stain, then examined by using light microscope. The pathological lesions showed that the animals exposed to toxic dose of sumithrin was characterized by inflammatory reaction, hemorrhage, congested blood vessels, necrosis, fibrosis and multiple granuloma lesions in internal organs and proliferation Astrocyte and gliosis in the brain while less lesions were recorded in the groups treated with beta-glucan showed improvement against toxic effect of sumithrin. As well as sumithrin causes dacrease body weight.

 

Keywords | Sumithrin, Beta-glucan, Histopathological changes, Internal organs, Albino mice

 

Editor | Kuldeep Dhama, Indian Veterinary Research Institute, Uttar Pradesh, India.

Received | January 30, 2017; Accepted | March 20, 2017; Published | April 17, 2017

*Correspondence | Salema Lafta Hassan, Department of Pathology and Poultry Diseases, College of Veterinary Medicine, University of Baghdad Iraq; Email: salema.l@covm.uobaghdad.edu.iq

Citation | Hassan SL (2017). Toxicopathological changes in internal organs of albino mice after treatment with sumithrin. Adv. Anim. Vet. Sci. 5(4): 167-173.

DOI | http://dx.doi.org/10.14737/journal.aavs/2017/5.4.167.173

ISSN (Online) | 2307-8316; ISSN (Print) | 2309-3331

Copyright © 2017 Hassan SL. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

 

INTRODUCTION

 

Sumithrinis a wide spread insecticide all over the world that called Phenothrin, and d-phenothrin (Calderon-Segura et al., 2012) is a synthetic pyrethroid that kills adult fleas and ticks. It has also been used to kill head lice in humansAs well as used as a component of aerosol insecticides for domestic use. sumithrin is often used with methoprene, an insect growth regulator that interrupts the insect’s biological life cycle by killing the eggs.Phenothrin has increased risk of liver cancer in rats and mice in long term exposure. (Calderon-Segura et al., 2012) It is capable of killing mosquitoes, although remains poisonous to cats and dogs, with seizures and deaths being reported due to poisoning. Sumithrin links with breast cancer; the link made by sumithrin’s effect on increasing the expression of a gene responsible for mammary tissue proliferation (Robinson, 2001). D-Phenothrin is registered for use in commercial and industrial settings, medical institutions, and other settings including aircraft, railroad cars, ships, trailers, homes, animal kennels, gardens, greenhouses, and pet products (RED, 2008) Uses for individual products containing d-phenothrin vary widely. Pyrethroids, including d-phenothrin, are lipophilic. Following absorption from inhalation or ingestion, the chemical is distributed throughout the body primarily to fatty tissues.administered a single oral dose of 200 mg/kg d-phenothrin to rats and it was rapidly absorbed in the gastrointestinal tract and distributed to body tissues and organs. Peak concentrations occurred at three hours after dosing, and occurred in the liver, kidneys, and blood (Soderlund et al., 2002). In target Organisms Sumithrin kills insects by direct contact and ingestion (Tomlin, 2006) that affects the insect’s central and peripheral nervous system. Following exposure to sumithrinvoltage-gated sodium channels are kept open for prolonged periods of time, causing repetitive nerve discharge and increased excitation (Costa, 2008). In Non-target Organisms sumithrin and other pyrethroid insecticides are generally lower in toxicity to mammals than insects because they interfere with sodium channels more strongly at lower temperatures. The body temperature of insects and other invertebrates is approximately 10 degrees below that of mammals. Higher mammalian body temperatures also contribute to the increased metabolic degradation of pyrethroids (Song, 1996).

 

Gislaine et al. (2012) reported insecticide such as permethrin caused severe alterations in the liver cells, reducing the size of the nuclei and causing hydropic degeneration of the hepatocytes, in addition to stimulating the proliferation of Kupffer cells, altered the amount of proteins, polysaccharides, lipids, and vacuoles in the cytoplasm of the hepatocytes and congested the hepatic capillaries. As for the spleen of the treated mice, no alterations were observed in the morphology in relation to the control group, what would suggest that the spleen would continue performing its functions, without suffering morphological alterations even in the presence of the toxic agent.

 

Chronic administration of DZN in mice at doses of 300 mg/kg food for aperiod of 45 days induced histopathological changes in spleen, thymus and lymph nodes (Handy et al., 2002). As well as (Daniela et al., 2013) repeated exposure, at subclinical doses, to organophosphorus MLT and DZN causes some, histopathological in rats (vasodilatation, microvacuoles, and granular dystrophy) in the liver, with macrovacuolar steatosis.

 

Β-Glucans are heterogeneous non starch polysaccharides of glucose polymer, the activity of β-glucan depends on the molecular structure, size, branching frequency, structural modification, confirmation, and solubility. It appears that the most active forms of β-glucans contain β-(1-3) (1-6) linkages (Brown and Gordon, 2003).

 

It was shown that yeast beta glucan increased the macrophage activity of guinea pigs. It was also shown that superoxide activity was increased. Super oxide dismutase (SOD) is one of the basic antioxidant enzymes we have that fight free radicals. SOD falls as we age and free radicals become muchmore effective and harmful. They said, “Macrophages from guinea pigstreated with glucans exerted toproduce superoxide.” Impressive (Mason, 2011).

 

The aims of the present study are determine the effects of sumithrin on internal organs of sumithrin on mice.

 

MATERIALS AND METHODS

 

Experimental Design

 

Forty albino mice randomly divided equallyinto 4 groups, each group contains (10) animals as following: G1 was administrated orally with ( 60 mg / kg b.w) of sumithrin daily for 6 weeks, G2 group was administrated sumithrin as G1 group and at the same time fed on pellet contains (200 mg/ kg pellet) of beta-glucan for 6 weeks. G3 group was fed with beta-glucan as 2nd group. G4group was considered as negative control group.

 

Treatment

 

Sumithrin is present in the form of powder.60 mg dissolved in 0.5cc of distal water and given to one mice by fine plastic stomach tube given to G1,G2.

 

Preparation Of Beta-Glucan Diet

 

Commercial assorted pellets were blended by food blender to which 200 mg of beta-glucan was added to each kilogram of grinded pellets mixed well and converted into the original pellets that left for drying (Salwa, 2012).

 

Parameter

 

A-Clinical signs and symptoms: Clinical signs were closely observed and continuously recorded along the period of experiment which is in 6 weeks, also any change in activity or behavior was noted.

 

B-Body weight changes: The result showed that there was a highly significant (p<0.01) decrease in the body weight of mice of (18.43± (G3) Compared With (G1, G2), (18.43±, 22.58± ), And Control group (21.532± ), respectively (Table 1).

 

Table 1: changes in the body weight after adminstration of sumithrin to mice.

 

weight

G1

G2

G3

G4

B.Wt.(g)

18.43± D

22.58± B

25.45± A

21.532± C

 

Means with different capital letters means significant (P≤0.05) different among groups. G1 was administrated orally with sumithrin. G2 group was administrated sumithrin as G1 group and at the same time feeding on pellet contains of beta-glucan. G3group was feeding with beta-glucan. G4group was considers as control negative group.

 

C-Macroscopic And Microscopic Examination:At the end of the experiments (6 weeks), all animals were sacrificed and Specimens were taken from internal organs like liver, kidney, spleen, heart and brain. The tissues were kept in 10% formaldehyde solution, for fixation, and then processed routinely by using the histokinete. Tissue sections were embedded in paraffin blocks, and sectioned by microtome and stained with hematoxylin and eosin stain, then examined by using light microscope (Luna, 1968).

 

Results And Discussion

 

Clinical Signs And Symptoms

 

All treated animals were depress and showed decrease appetite for food consumption during the study period The loss of body weight and anorexia were due to pathological lesions which lead to indigestion of stomach and malabsorption of intestine (Summaedaey, 1989).while the control group showed normal consumption.

 

Histopathological Examinations

 

Histopathological changes of animals treated with sumithrinat 6 weeks post treatment.

 

Liver: multiple small granulomatous lesions consisting from aggregation of lymphocytes and macrophages scattered in the liver parenchyma. As well as proliferation of kupffers cells.atrophy of hepatic cord with severe dilated of sinusoids with inflammatory cells in their lumen.

 

Kidney: shows granulomatous lesion consisting from aggregation macrophages and lymphocytes in interstitial tissue (Figure 1). Furthermore, desquamation of the epithelial lining cells of renal tubules and congestion of blood vessels and severe acute cellular degeneration characterized by hyaline degeneration.

 

Spleen: The spleen showed inflammatory cells infiltration in the red pulp (Figure 2). With depletion of white pulp as well as an increase in thickness of capsular region.

 

 

Lung: Thickening of interalveolar septa due to mononuclear cells infiltration with areas of emphysema especially at 6 weeks periods (Figure 3).

 

Brain: there is multiple areas of encephalomalacia (Figure 4). Proliferation of astrocytes and gliosis. As well as Slight congestion, perivascular and perineuronal edema.

 

Intestine: Erosion of epithelial lining cells, in addition to neutrophils aggregation in the lamina properia of the villi with goblet cell hypertrophy and hyperplasia in other section mucus and neutrophils were seen in the lumen of the intestine.

 

 


Histopathological Changes Of Animal Treated With Sumithrin And Beta-Glucan

 

Liver: Small granulamatous lesions (Figure 5). Were the main lesions in the liver parenchyma, hyperplasia of kupfferscellsas

 


 

well asmononuclear cells aggregation in the portal area mainly around portal vein and bile duct.

 

Kidney: There vacuolar degeneration and enlargement of epithelial cells of renal tubules wth mononuclear cells infiltration around glomerula (Figure 6).

 

Spleen: The main lesion in the spleen was Moderate hyperplasia of white pulp.

 

Lung: Perivascular and peribronchiolar lymphocytic cuffings (aggregation of lymphocytes forming follicle like structures). Also hemorrhage in alveolar spaces and congested interalveolar capilleries blood vessels (Figure 7).

 

Brain: Focal gliosis slight edema and inflammatory cells in the lumen of congested blood vessels in pia matter (Figure 8).

 



Intestine: Hyperplasia of goblet cells and marked lymphoid tissue hyperplasia were seen between the mucosal glands and mucin in the lumen of the intestine.

 

Histopathological Change Of Animals Treated With Beta-Glucan

 

Liver: mononuclear cells aggregation in portal area around proliferation of bile duct and portal blood vessels (Figure 9). As well as in one side of dilated central veins with proliferation of kupffer cells (Figure 10).

 

Spleen: moderate hyperplasia of white pulp (Figure 11).

 

Kidney: mononuclear cells aggregation around glomerula and between renal tubules (Figure 12).

 

Lung: Perivascular and peribronchiolar lymphocytic cuffings (aggregation of lymphocytes forming follicle like structures).

 

Intestine: No clear lesion in the brain.

 

Brain: No clear lesion in the brain.

 

Control group: There was no significant lesion.

 



The result of the body weight showed significant increase in (G3, G2), suggested that due to viscosity of beta-glucan these results consistent with (Kerckhoffs et al., 2003) reported both beta-glucan from oats (Manthey et al., 1999) and mushrooms (Guo et al., 2004) can slow down the digestion transit time in the lower part of the small intestine and in the large intestine, therefore delaying nutrient absorption. As well as B-glycan diet had an effect on body weight gain prevention (Noh et al., 2011).

 


 

The decrease in the body weight in (G1), revealed that Sumithrin has effects on sex hormones, (mimic estrogens) in one of their biological activities, (Go et al., 1999) looked at the activity of a gene called pS2 because the expression of pS2 is activated by estrogens, and they found that in human cells sumithrin (as well as synthetic pyrethroid insecticide, fenvalerate) activates the expression in cells of pS2 like estrogens do.

The pathological lesions in examined organs in group treated with sumithrin may be attributed to oxidative stress is importantly involved in the pathophysiology of various liver lesion due to treatment with sumithin which led to Reactive oxygen species, such as superoxide, hydrogen peroxide and hydroxyl radical are released by neutrophils and have been shown to play an important role in inflammation and cell injury (Vladimirov, 2004).

 


The hepatocyte’s proteins, lipids and DNA are among the cellular structures to be affected primarily by ROS and reactive nitrogen species (RNS). This process disrupts at cellular and molecular level the structure-function relationship on liver cells at different sites (Arauz et al., 2016). The same lesions were recorded by (Gislaine et al., 2012), the liver cells of mice treated with Permethrin caused severe alterations in the liver cells, reducing the size of the nuclei and causing hydropic degeneration of the hepatocytes, in addition to stimulating the proliferation of Kupffer cells, altered the amount of proteins, polysaccharides, lipids, and vacuoles in the cytoplasm of the hepatocytes and congested the hepatic capillaries.

 

The main pathological lesions of the spleen depletion of white pulp may be due to high susceptibility of T lymphocytes to apoptosis induced by (IC) toxic effects (Gekle and Silbernagl, 1996) that agree with (Taylor et al., 2007) who stated that deltamethrin was able to cause thymus atrophy and apoptosis in the thymus of treated animals via the alteration of Ca/CaM-dependent protein kinase-phosphatase cascade.

 

The other pathological lesions Hemorrhage in the liver and spleen parenchyma attributed to toxic effects of sumithrin on endothelial cells that lead to rupture of blood vessels, that agree with (Szretter et al., 2007) who found that pesticides such as (IC) can induce rupture in the wall of central arteries of the spleen.

 

The pathological lesions in the kidney may be associated with increased levels of ROS/RNS and decreased antioxidant levels (Arauz et al., 2016) that agree with (Alwan, 1996) who found exposure to Ochratoxin A (OTA) leads to an impairment of postproximal nephron function, with subsequent disturbance of cellular acid-base homeostasis.

 

The histopathological lesions in the internal organs of animals at β-glucan were characterized by moderate lesions due to β-glucans stimulates production of both proinflammatory and anti-inflammatory cytokines, the cellular pathway involved in induction of TNF-α (a Sykin dependent pathway), differs from that for induction of IL-6 and IL-10 (a Skyin--dependent pathway). β-glucan fragments released during infection contributes to the activation of host defense (Alwan, 1996) as well as β-glucan enhance innate immune response and provided partially protective immune responses against sumithrin effect on organs by significant increase of IL-1 and IFN- by DC initiates and enhances both innate and acquired immunity (Robinson, 2008).

 

Proliferation of kupffer cells and hyperplasia of lymphoid tissue in the current study may be due to stimulated immune response (Sharon, 2013). Also small granulomatous lesions in the liver was due to β-glucan which stimulation phagocytic cells specially macrophages which destroyed and remove the foreign body and necrosis at the site internal organs in which activated macrophages remove them via granulomatous reaction that agree with (Adams, 1976) who considered the granulomatous response as a stronger host defense mechanism against foreign body.

 

The pathological lesions showed that the animals fed Beta glucan are influenced by several factors that agree with (Sandeep et al., 2011) who stated that beta glucan is a polysaccharide (insoluble long-chain carbohydrate) may stimulate the immune system by increasing chemicals, which prevent infections.

 

Also (Hong et al., 1950) referred that this mechanism of action is effective against cancers when used in combination with specific monoclonal antibodies that activate or cause the complement to be bound to the tumor.

 

According to above observations, we concluded that the sumithrin have toxic effect on internal organs in mice and beta glucan have modulate the effect of the sumithrin, while the activated immune response may prevent the toxic effect of sumithrin.

 

Authors Contribution

 

Conceived designed and Performed the experiments: Salema Lafta Hassan. Analyzed the data: Contributed reagents/materials/analysis tools and wrote the paper: Salema Lafta Hassan.

 

References

 

  • Adams DO (1976). The granulomatous inflammatory response: A review.Am. J. Pathol.84: 164-192. 107:173-177.
  • Alwan MJ (1996).Nocardiaosteroides studies some aspect of pathogenesis. Ph. D. Thesis- College of veterinary Medicine- Baghdad University.
  • Arauz J, Ramos-Tovar E, Muriel P (2016). Redox state and methods to evaluate oxidative stress in liver damage: From bench to bedside.
  • Brown G D, Gordon S (2003). Fungal-glucans and mammalian immunity. Immun. 19:311-315. https://doi.org/10.1016/S1074-7613(03)00233-4
  • Calderon-Segura ME, Sandra G, Omez-Arroyo RV, Carmen M (2012). Evaluation of genotoxic and cytotoxic effects in human peripheral blood lymphocytes exposed in vitro to neonicotinoid insecticides. J. Toxicol. Article ID 612647, pp.11. https://doi.org/10.1155/2012/612647
  • Costa LG (2008). Toxic Effects of Pesticides. Casarett and Doull’s Toxicology: The Basic Science of Poisons, 7th ed. Klaassen CD, McGraw- Hill Companies, New York. pp. 883-930.
  • Daniela LB, Maria B, GINA M, Anne-marie C, Bălălău C (2013). Investigation of the toxicity of some organophosphorus pesticides in arepeated dose study in rats. Rom. J. Morphol. Embryol. 54(2):349–356.
  • Gekle M, Silbernagl S (1996). Renaltoxicodynamics of ochratoxin A: a pathophysiological approach. Kidney Blood Press Res. 19(5): 225-35. https://doi.org/10.1159/000174080
  • Gislaine CR, Patrícia RO, Gervasio HB, Maria IC (2012). Cytotoxic effects of permethrin on mouse liver and spleen cells. Microsc. Res. Tech. 75(2):229-38https://doi.org/10.1002/jemt.21047
  • Go V, Garey J, Wolff MS, Pogo BG, (1999). Estrogenic potential of certain pyrethroid compounds in the MCF-7 human breast carcinoma cell line. Environ. Health. https://doi.org/10.1289/ehp.99107173
  • Guo FC, Kwakkel RP, Williams BA, Li WK, Li HS, Luo JY, Li XP, Wei YX, Yan ZT, Verstegen MW, (2004). Effects of mushroom and herb polysaccharides, as alternatives for an antibiotic, on the cecal microbial ecosystem in broiler chickens. Poult. Sci. 83(2):175-182. https://doi.org/10.1093/ps/83.2.175
  • Handy RD, Abd-El Samei HA, Bayomy MF, Mahran AM, Abdeen AM, El-Elaimy EA, (2002). Chronic diazinon exposure: pathologies of spleen, thymus, blood cells, and lymph nodes are modulated by dietary protein or lipid in the mouse. Toxicol. 172(1): 13–34. https://doi.org/10.1016/S0300-483X(01)00575-3
  • Hong F, Yan J, Baran JT, Allendorf DJ, Hansen RD, Ostroff GR (1950). Mechanism by which orally administered beta-1, 3-glucans enhance the tumoricidal activity of antitumor monoclonal antibodies in murine tumor models. J. Immunol. 173: 797–806. https://doi.org/10.4049/jimmunol.173.2.797
  • Kerckhoffs D, Hornstra G, Mensink R (2003). Choles- terol-lowering effect of beta-glucan from oat bran in mildly hypercholesterolemic subjects may decrease when beta-glucan is incorporated into bread and cookies. Am. J. Clin. Nutr. 78 (4): 221-227.
  • Luna LG (1968). Manual of Histologic staining methods of the armed force institute of pathology. 3rd Ed. McGraw-Hill, New York.
  • Manthey F, Hareland G, Ghuseby D (1999). Soluble and Insoluble fibre content and composition in oat. Cereal Chem. 76 (3): 417-420. https://doi.org/10.1094/CCHEM.1999.76.3.417
  • Mason R (2011). Book .What is Beta Glucan. Printed in the U.S.A. p 6.
  • Noh JR, Lee IK, Ly SY, Yang KJ, Gang GT, Kim YH, Hwang JH, Yun BS, Lee CH. (2011). A Phellinus baumii extract reduces obesityin high-fat diet-fed mice and absorption of triglyceride inlipid-loaded Mice. J. Med. Food. 14(3): 209-218. https://doi.org/10.1089/jmf.2010.1152
  • RED (Reregistration Eligibility Decision) (2008). Environmental protection agency, office of prevention, pesticides and toxic substances, office of pesticide programs, U.S. Government printing office: Washington, DC, 2008.
  • Robinson P (2001). Evaluation of the new active thiamethoxam in the product Cruiser 350 Fsinsecticide Seed Treatment. National Registration Authority for Agricultural and Veterinary Chemicals January. pp. 4.
  • Robinson MA, Baumgardner JE, Good VP, Otto CM (2008). Physiological and hypoxic O2 tension srapidlyregulateno production by stimulated macrophages. Am. J. Physiol. Cell Physiol. 294:1079–1087. https://doi.org/10.1152/ajpcell.00469.2007
  • Salwa AS (2012). Effect of hypercholesterolemia, chitosan and whole sonicated E.coli ags on immune response and pathological changes in mice infected with E.coli (O: 127) isolated from children suffering from diarrhea. Thesis faculty of veterinary medicine, Baghdad.
  • Sandeep R, Gaurav S, Navneet N, Manisha A, Nag p, Gagan SS (2011). Preparation, characterization, and biological properties of β-glucans. J. Adv. Pharm. Technol. Res. 2(2): 94–103. https://doi.org/10.4103/2231-4040.82953
  • Sharon C (2013). Beta-Glucan From Mushroom AgaricusBisporus Stimulates Immunity Better.
  • Soderlund DM, Clark JM, Sheets LP, Mullin LS, Piccirillo VJ, Sargent D, Stevens JT, Weiner ML (2002). Mechanisms of pyrethroid neurotoxicity: implications for cumulative risk assessment. Toxicol. 171(1): 3-59. https://doi.org/10.1016/S0300-483X(01)00569-8
  • Song J, Narahashi T (1996). Modulation of sodium channels of rat cerebellar purkinje neurons by the pyrethroid tetramethrin. J. Pharmacol. Exp. Ther. 277(1): 445-453.
  • Summaedaey, AS. (1989).Experimental Study of Mercurical Toxicosis in Rats.Iraqi J. Vet. Med. 36 (2):231– 243.
  • Szretter KJ, Gangappa S, Lu X (2007). Role of host cytokine responses in the pathogenesis of avian H5N1 influenza viruses in mice. J. Virol. 81:2736-44. https://doi.org/10.1128/JVI.02336-06
  • Taylor PR, Tsoni SV, Willment JA (2007). Dectin-1 is required for β-glucan recognition and control of fungal infection. Nat. Immunol. 8: 31-8. https://doi.org/10.1038/ni1408
  • Tomlin CD (2006). The Pesticide Manual, A World Compendium, 14th ed. British Crop Protection Council: Farnham Surrey, UK. 819-820.
  • Vladimirov YA (2004). Reactive oxygen and nitrogen species diagnostic, preventive and therapy. Biochem. 69(1): 57.
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