PREVALENCE OF LISTERIA MONOCYTOGENES IN RAW AND COOKED POULTRY WITH RAPID CONFIRMATION BY MULTIPLEX PCR.

Document Type : Research article

Authors

Animal Health Research Institute, Assiut Regional Laboratory

Abstract

The incidence of Listeria spp. and Listeria monocytogemes in raw, grilled and fried poultry was determined, 40 samples of each product wich were collected from different localities in Assiut City. The obtained results pointed out that Listeria spp. could be isolated from 50, 15 and 7.5% of the examined raw, grilled and fried poultry respectively, while(20)of Listeria momocytogenes was detected in 14 (35%) of raw poultry, 5 (12.5%) of grilled samples and 1 (2.5%) of fried samples. Strains of Listria monocytogenes was characterized by several biochemical tests and confirmed by polymerase chain reaction (PCR). Results showed that Listeria moncytogenes was confirmed by PCR in 6 isolates of raw poultry and one from each of fried and grilled samples. This study revealed that presence of Listeria monocytogenes in both grilled and fried poultry is an important public risk because of the great demand for daily consumption of these products.

Keywords


Animal Health Research Institute,

Assiut Regional Laboratory.

 

Prevalence of Listeria monocytogenes in raw and cooked poultry with rapid confirmation by multiplex PCR.

(With 3 Tables and One Figure)

 

By

Ghada M. Mohamed and Lubna M. Ebraheem

(Received at 15/12/2011)

 

مدى تواجد ميکروب الليستيريا مونوسيتوجين فى الدجاج الطازج والمطهى مع إجراء اختبار تفاعل البلمرة المتسلسل التاکيدى له

 

غادة محمد محمد , لبنى محمد ابراهيم

 

لقد تم تحديد مدى تواجد طائفة الليستيريا وميکروب الليستيريا مونوسيتوجين في کل من الدجاج الطازج والمشوى والمقلي ولذلک تم جمع 40 عينة من کل نوع من أماکن مختلفة في محافظة أسيوط. ولقد أشارت النتائج إلى أنه قد تم عزل طائفة الليستريا من 50%، 15%، 7.5% من کلا من الدجاج الطازج والمشوى والمقلي على التوالي بينما لوحظ وجود ميکروب الليستيريا مونوسيتوجين في 14 عينة من الدجاج الطازج بنسبة 35% وفي 5 عينات من الدجاج المشوي بنسبة 12.5%وفي عينة واحدة من الدجاج المقلي بنسبة 2.5%. ولقد تم التاکد من عترات الليستيريا مونوسيتوجين بواسطة التجارب الکيميائية وبتفاعل البلمرة المتسلسل حيث أظهر هذا التفاعل وجود الليستيريا مونوسيتوجين في 6 عينات من الدجاج الطازج وفي عينة واحدة فى کل من الدجاج المشوي والمقلي. وأوضح هذا البحث أن وجود الليستريا مونوسيتوجين في کلاً الدجاج المشوي والمقلي يمثل خطرا على الصحة العامة وذلک للاقبال الکبير والاستهلاک اليومي لهذه المنتجات.

 

SUMMARY

 

The incidence of Listeria spp. and Listeria monocytogemes in raw, grilled and fried poultry was determined, 40 samples of each product wich were collected from different localities in Assiut City. The obtained results pointed out that Listeria spp. could be isolated from 50, 15 and 7.5% of the examined raw, grilled and fried poultry respectively, while(20)of Listeria momocytogenes was detected in 14 (35%) of raw poultry, 5 (12.5%) of grilled samples and 1 (2.5%) of fried samples. Strains of Listria monocytogenes was characterized by several biochemical tests and confirmed by polymerase chain reaction (PCR). Results showed that Listeria moncytogenes was confirmed by PCR in 6 isolates of raw poultry and one from each of fried and grilled samples. This study revealed that presence of Listeria monocytogenes in both grilled and fried poultry is an important public risk because of the great demand for daily consumption of these products.

 

Key words: Listeria monocytogenes, raw poultry, cooked poultry, PCR.

 

Introduction

 

            The bacterium Listeria monocytogenes is gram-positive, motile organism capable of growth between – 0.4 and 50ºC and due to its ubiquitous character, Listeria monocytogenes easily enters the human food chain and may multiply rapidly (Farber and Peterkin, 1991).

 

            Recent studies have confirmed the presence of Listeria monocytogenes in a wide variety of food stuffs. Milk (mainly unpasteurised), dairy products (especially soft ripened cheeses), poultry meat and their products and raw vegetables are considered to be the most frequently contaminated with Listeria (FAO, 2000).

 

            The association between the consumption of cooked poultry products and several cases of listeriosis in England and the United States, together with the finding that Listeria monocytogenes was present in 12-27% of such products, indicates that ready to-eat food may constitute a public health risk (Kaczmarski and Jones, 1989). The presence of microorganisms in ready to eat food is a result of lack of hygiene because Listeria monocytogenes was noticed in slaughter animals and human faeces (Furowicz, 1992). The heating processes as cooking and pasteurization should eliminate Listeria.

 

            Most healthy humans are not significantly affected by the intake of small numbers of Listeria monocytogenes in foods. However, certain sections of the population are predisposed to the development of listeriosis due to the presence of existing chronic illness, suppression of the immune system, pregnancy, or extreme youth or age under 1 year or over 60 years (Lorber, 1990). This presents a significant public health problem because in such section of the population, listeriosis is fatal in up to 30% of cases (Farber and Peterkin, 1991; Jones and MacGowan 1995).

 

            Because of the public health significance of Listeria monocytogemes, the present study was undertaken to determine the prevalence of the organism in both raw and cooked poultry with using multiplex PCR as a rapid, specific and reliable means for identification of the organism.

 

Materials and Methods

 

Collection of samples:

            One hundred and twenty samples of poultry were examined: 40 raw, 40 grilled and 40fried poultry samples were collected from different slaughter establishment and different restaurants in AssiutCity. The samples were analyzed on the day they were collected for isolation of Listeria monocytogenes according to FDA (2011).

 

Isolation

25 g of each sample were aseptically added to 225 ml. Listeria Selective Enrichment broth (LSEB) and mixed thoroughly then incubated at 30ºC for 24-48h. and next the broth was cultured on Oxford Agar. After 24-48h of incubation at 35ºC the colonies morphologically resembling Listeria were submitted to confirmatory examination.

 

Identification

Suspected Listeriacolonies (black with black halo on esculin-containing media and blue on Aloa agar media) were examined by Gram stain, for shape, arrangement of bacteria and its staining reaction. The organism was cultured onto semisoled media to observe umbrella-shaped motility, haemolysis on sheep blood agar and CAMP test, (Quinn et al., 1994)

For further confirmation of Listeria monocytogenes, the isolates were inoculated into 0.5%carbohydrate broth fermentation media of Mannitol, L-Rhamnose, D-xylose and dextrose.

Nine strains for which expressing these standard features were selected (7 strains from raw poultry and one strain from each of grilled and fried poultry) and examined according to PCR technique.

 

DNA extraction:

Total DNA was obtained from the nine selected strains of confirmed isolates. Each strain was incubated overnight in Tryptose Soya Broth and the bacteria from 1ml. of this culture were centrifuged and the pellet was resuspended in 100ml of distilled water. Then 100ml of 2% triton X-100 were added. The contents were incubated at room temperature for 10 min and the tubes were boiled for next 10 min. following incubation, the tubes were centrifuged for 5 min at 13.000xg. DNA containing supernatant was used in PCR. (Agresborg et al., 1997).

 

Oligonuceoltide:                

For identification of Listeria monocytogenes using RCR, two oligonuceoltide primers were selected based on the PrFA (transcriptional activator of the virulence factor) gene for Listeria monocytogenes, as described by Germini et al. (2009).

 

Table 1: Oligonucleotide sequences used for identification of Listeria monocytogenes by PCR.

 

 

Target gene

 

Primer sequence (5´-3´)

Amplified fragment  length

 

Reference

PRFA gene

LIS-F:TCA TCG ACG GCA ACC TCG G

LIS-R:TGA GCA ACG TAT CCT CCA GAG T

217 bp

Germini      et al. (2009)

 

PCR reaction conditions:

            The PCR was performed in total volume of 25µl, using 2 µl of extracted DNA as template. Each reaction mixture contained 12.5 µl. GoTag Green Master Mixture (Promega, M 7122), 1µl of 500 Pmol For- ward primer (LIS-F), 1µl of 500 Pmol reverse primer (LIS-R) and 8µl of ultra-Pure DNase/ RNase –Free Distilled water (Gibco, Grand Island, Ny, USA). All tubes were overlaid with liquid parafin (2 drops) to avoid evaporation during thermal cycling, (Ependrof thermal cycler, Germany)

 

Amplification:

DNA was amplified by temperatue cycling through the following temperature profile: preincubation at 95ºC for 5 min, 40 cycles of 95ºC for 30s (denaturation), 54ºC for 30 s (annealing) and 72º for 30s (amplification), with a final cycle extending amplification conditions to 72ºC for 5 min.

Amplified products were kept at 4ºC and resolved by horizontal agarose gel electrophoresis 1%, gels were stained by immersion in 2µl ethidium bromide solution for 30 min, washed briefly in running tap water, then detected under a short-wavelength UV light and photographed with EDVOTEK Gel documentation system (Germini     et al., 2009). The 1-KB plus DNA ladder (Invitrogen) was used as molecular size marker.

 

Results

 

The obtained results were recorded in Tables 2 and 3.

 

Table 2: Prevalence of Listeria spp. and Listeria monocytogenes in raw, grilled and fried poultry samples.     

 

Type of samples

No. of examined samples

+ve samples of Listeria.spp

+v samples of L.monocytogenes

No

%

No

%

Raw poultry

40

20

50

14

35

Grilled poultry

40

6

15

5

12.5

Fried poultry

40

3

7.5

1

2.5

Total

120

29

24.2

20

16.6

 

Tables 3:  Results obtained in multiplex PCR.

 

Type of samples

No.of isolated strains of L.monocytogenes

No.of strains confirmed byPCR

No.of +ve strains out byPCR

Raw poultry

20

7

6

Grilled poultry

6

1

1

Fried poultry

3

1

1

Total

29

9

8

 

Identification by PCR:

                                                    

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Fig. 1: agarose gel electrophoresis of amplication products obtained from genomic DNA of Listeria monocytogenes isolated from the examined samples (217 bP PCR product).

Lane l: Molecular size marker.

Lane 2-10: +ve positive for Listeria monocytogenes except lane six with is negative for Listeria monocytogenes.

Lane 11: Positive control. (Obtained from Department of Medicine Microbiology, College of medicine-Assiut)

Lane 12: Negative control.

 

Discussion

 

            Cooking is the process of producing safe and edible foods.It is clear that cooking has been around for a long time and continues today to play a fundamental role in daily life across the globe. Cooking was first used for preservation but it has evolved and now it is a form of entertainment and creativity for many people. The fundamental types of cooking are grilling and frying. Grilling is cooking of food using a direct dry heat while frying is the cooking of food in oil or fat. Common types of food that are grilled and fired include fish, meat and chicken (EUFIC 2010).

Fried chicken is an important food served at almost all fast foods restaurant chains. Surface appearance and texture are the most significant factors for consumer acceptability. Most foods cook rapidly and develop golden colour, crisp texture and good flavour at the frying temperatures between 160 and 90º (EUFIC 2010).

            As shown in Table 2, 20 of 40 raw poultry meat (50%) were found to contain Listeria spp. This trend is higher than that recorded by Mahmood et al. (2003) (12.5%) and Lihan (2007) (34.8) while Lorna and Arthur (1994) and Katarzyna et al. (2004) recorded higher percent of Listeria spp. than our study (91 and 61.4%, respectively).

            From the same table the incidence of Listeria monocytogens in raw poultry (35%) was higher than that obtained by Marinsek and Grebenc (2002) (15.78%), Mahmoood et al. (2003) (5%), Gudbjornsdottir (2004) (22.2%), Katarzyan et al. (2005) (13.9%), Hindy (2006) (8%), lihan (2007) (24.1%) while Ashraf et al. (2010) couldn`t isolateListeria monocytogenes from any of  25 samples of frozen breast fillet examined.

            On the other hand, higher result are recorded by Rama et al. (1994) (60%), Lorna and Arthur (1994) (59%), Miettinen et al. (2001) (62%) and Cristina et al. (2004) (60%). While other investigations of poultry meat obtained by some authors confirmed our results, they recorded nearly similar percentage as Uyttendele et al. (1999) (38.2%), Capita et al. (2001) (32%) and Vitas et al. (2004) (36.1%).

            Several studies showed that rates of Listeria monocytogenes in raw chicken varied between 23% and 60% (Pini and Gilbert, 1988; Skovgaard and Morgan, 1988).

            The presence of Listeria monocytogenes in raw poultry cannot be considered as important as in grilled and fried one since raw poultry are normally cooked or pasteurized before consumption. It has been demonstrated that normal pasteurization processes are effective in the destruction of this pathogen so conventional cooking would also be expected to eliminate this organism (Norrung, 2000). 

            From the tabulated data in Table 2, the percentage of Listeria spp. in grilled poultry was 15%, which is somewhat in agreement with that of Wilson (1995) who recorded an incidence of 11% in ready to eat chicken. As for fried poultry 7.5% contained Listeria spp. which is nearly similar to the results detected by Lorna and Arthur (1994) who noticed the organism in 8% of cooked poultry.

 

Listeria monocytogenes as presented in Table 2 was recovered from 12.5% of grilled poultry, while Diaz-lopez et al. (2011), could not detect the same organism in the same product. Also this table revealed that 2.5% of Listeria monocytogenswere isolated from fried poultry, whereas Meldrum et al. (2010) reported the isolation of the organism from 0.19% of chicken sandwiches (fried chicken). 

           

On the other side, the obtained results were in disagreement with Lorna and Arthur (1994) and Katarzyna et al. (2005) who could not detect the organism in cooked poultry.

           

It is worth to mention that previous surveys on cooked and ready to eat poultry, showed that 12 to 27% of the samples were found to contain Listeria monocytogenes (Gilbert et al., 1989; Kerr et al., 1990; Ribeiro and Burge, 1992). In addition Rama et al. (1994) and Tareq      et al. (2010) could detect the organisms in 22% of ready to eat chicken and in 7.8% in chicken shawirma (fried chicken) respectively.

                                               

In this study presence ofListeria monocytogenesin both grilled and fried poultry products may be due to spreading the organism by contact with infected surface or product during food preparation or may be due to insufficient cooking. Various researchers clamed that, poor hygiene practice and cross-contamination between raw and cooked products during food handling is one of the major factors for the outbreak of food borne illness (Schuchat et al., 1992; Salvat et al., 1995; Speirs et al., 1995; Scott, 1996).

 

            It is recommended that, application of good hygienic measures during preparation and good handling is essential to safe the quality of cooked poultry. In addition poultry should be cooked to an internal temperature of 70ºC for more than 20 minutes to ensure destruction of Listeria monocytogenesconfirmed by PCR.

           

Amplification products obtained when the genomic DNA from these strains were subjected to PCR by using two primer sequences, 8 out 9 tested strains samples were displayed the characteristic PCR product at (217pb), that Listeria monocytogenes were confirmed in 6 raw poultry, 1 grilled sample and 1 fried sample (Table 3).

 

 

References

 

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Ashraf, M.A.; Sohaila, F.H.; Raafat, H.; Moemen, A.M. and Khalid, I.E. (2010):Occurrence of Listeria spp in meat, chicken products and human stools in Assiut city, Egypt with PCR use for rapid identification of Listeria monocytogenes Veterinary World Vol. 3 (8): 353-359.

Capita, R.; Alonso-Calleja, C.; Moreno, B. and Garcia-Fernandez, M.C. (2001): Occurrence of Listeria spp. in retail poultry meat and comparison of a cultural immunoassay for their detection. Int. J. Food Microbiol. 65: 75-82.

Collee, J.G. and Miles, R.S. (1989): Tests for identification of bacteria Mackie and McCarthey practical Medical Microbiology, J.G. collee, J.P. Duguid, A. G. Fraser and B.P. Marmion (eds). Vol. 11, 13 ed. Churchill living stone Edinburgh. London, PP:    141-159.

Cristina, M.; Goncalo, A.; Luisa, C.; Paula, T.; Tim, H. and Paul, A.G. (2004):Incidence of listeria monocytogenes in different food products commercialized in Portugal. Food Microbiology, 21: 213-216.

Diaz. Lopez, A.; Cantu-Ramirez, R.C; Garza-Gonzalez, E.; Ruiz. Tolention, L.; Tellez-Luis, S.J.; Rivera, G. and Bocanegra-garcia, V. (2011):Prevalence of foodbone pathogens in grilled chicken from street vendors and retail qutlets in Reynosa, Tamaulipas, Mexico. J. of Food Protection 74 (8): 1515-1518.

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Kerr, K.G.; Rontowa, N.A. Hawkey, P.M. and Lacey, R.W. (1990): Incidence of Listeria Spp. In precooked chilled chicken products as determined by culture and enzyme linked immunoassay (ELISA). J. Food Portection. 53: 606-607.

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References
 
Agersborg, A.; Dahl, R. and Martinez, I. (1997): Samples preparation and DNA extraction procedures for polymerase chain reaction identification of Listeria monocytogenes in seafoods. Int. J. Food Microbiol. 35: 275-280.
Ashraf, M.A.; Sohaila, F.H.; Raafat, H.; Moemen, A.M. and Khalid, I.E. (2010):Occurrence of Listeria spp in meat, chicken products and human stools in Assiut city, Egypt with PCR use for rapid identification of Listeria monocytogenes Veterinary World Vol. 3 (8): 353-359.
Capita, R.; Alonso-Calleja, C.; Moreno, B. and Garcia-Fernandez, M.C. (2001): Occurrence of Listeria spp. in retail poultry meat and comparison of a cultural immunoassay for their detection. Int. J. Food Microbiol. 65: 75-82.
Collee, J.G. and Miles, R.S. (1989): Tests for identification of bacteria Mackie and McCarthey practical Medical Microbiology, J.G. collee, J.P. Duguid, A. G. Fraser and B.P. Marmion (eds). Vol. 11, 13 ed. Churchill living stone Edinburgh. London, PP:    141-159.
Cristina, M.; Goncalo, A.; Luisa, C.; Paula, T.; Tim, H. and Paul, A.G. (2004):Incidence of listeria monocytogenes in different food products commercialized in Portugal. Food Microbiology, 21: 213-216.
Diaz. Lopez, A.; Cantu-Ramirez, R.C; Garza-Gonzalez, E.; Ruiz. Tolention, L.; Tellez-Luis, S.J.; Rivera, G. and Bocanegra-garcia, V. (2011):Prevalence of foodbone pathogens in grilled chicken from street vendors and retail qutlets in Reynosa, Tamaulipas, Mexico. J. of Food Protection 74 (8): 1515-1518.
European Food Information Council (2010): The why, how and consequences of cooking our food. Cooking Review-part 1: Introduction.
FAO (2000):Risk assessment; Listeria monocytogenes in ready to eat foods pp. 17-21.
Farber, J.M. and Peterkin, P.I. (1991): Listeria monocytogenes, a food-borne pathogen. Microbiolgical Review 55: 476-511.
Food and drug administration, FDA (2011):Bacteriological AnalyticalManual 8th Edition (BAM), Detection and Enumeration of Listeria monocytogenes. chapter 10.
Furowicz, A.J. (1992): New Look on etiopathogenesis of listeriosis. II. Epidemiology aspects Medycyna wet. 48: 309-311.
Germini, A.; Masola, A.; Carnevali, P. and Marchelli, R. (2009): Simultaneous detection of Escherichia coli O 175: H 7, Salmonella spp. and Listeria monocytogenes by multiplex PCR. Food Control 20 (8): 733-738.
Gilbert, R.J.; Miller, K.L. and Roberts, D. (1989): Listeria monocytogenes and chilled foods. Lancet 1: 383-384.
Gudbjornsdottir, B.; Suihko, L.M.; Gustavsson, P.; Thorkelsson, G.; Salo, S.; Sioberg, A.M.; Niclasen, O. and Bredholt, S. (2004): The incidence of Listeria monocytogenes in meat, poultry and seafood in the Nordic countries.Food Microbiol., 21: 213-216.
Hindy, B.A. (2006): Further studies onListeria organisms. Ph. D. Thesis, Fac. Vet. Med. Cairo University, Egypt.
Jones, E.M. and MacGowan, A.P. (1995):Antimicrobial chemotherapy of human infection due to Listeria monocytogenes. European J. of Clinical Microbiology and Infections Disease. 14: 165-175.
Kaczmarski, E.B. and Jones, D.M. (1989): Listeriosis and ready cooked chicken. Lancet i: 549.
Katarzyna, K.P.; Jacek, B.; Jaroslaw, B.; Jerzy, M. and Malgorzata, C. (2005):Occurrence of Listeria spp. In raw poultry meat and poultry meat products. Bull. Vet. Inst. Pulawy 49: 219-222.
Kerr, K.G.; Rontowa, N.A. Hawkey, P.M. and Lacey, R.W. (1990): Incidence of Listeria Spp. In precooked chilled chicken products as determined by culture and enzyme linked immunoassay (ELISA). J. Food Portection. 53: 606-607.
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