EFFECT OF DIFFERENT ADJUVANT ON THE QUALITY OF ANTI-RIFT VALLEY FEVER HYPERIMMUNE SERUM

Authors

Veterinary Serum and Vaccine Research Institute, Abbasia, Cairo.

Abstract

Trials for production of hyperimmune sera against Rift Valley Fever (RVF) virus in balady rabbits were done by using different types of adjuvants (saponin, IMS 3013, IMS 1113 and Freund's adjuvants). The concentration of saponin was 0.5% added to the vaccine while the other adjuvants were added in equal amounts to the vaccine. Each group of rabbits received four injections subcutaneously with one week interval, the first 3 injections were the mixture of inactivated virus and adjuvant but the last one was the virulent virus only. The level of antibody of the prepared hyperimmune sera was evaluated and determined by 3 different serological tests (serum neutralization test "SNT", ELISA and agar gel precipitation test). They revealed that the best of choice adjuvant was IMS3013 which gave high antibody titre at the 10th-15th day post last injection and persist till the 21st day, the other types of adjuvants gave high level of antibody at 10th day post injection but less in titre than that obtained by using IMS3013

Keywords


Veterinary Serum and Vaccine Research Institute,

 Abbasia, Cairo.

 

Effect of different adjuvant on the quality of anti-Rift Valley Fever hyperimmune serum

(With 4 Tables)

 

By

Eman M. Shalakamy and R.M. El-Khatib

 

تأثير المحسنات المختلفة على کفاءة السيرم المناعى

لفيروس حمى الرفت فالى

 

إيمان محمد شلقامى ، رجب محمد الخطيب

 

محاولات لإنتاج سيرم عالى المناعة ضد فيروس حمى الرفت فالى فى الأرانب البلدى باستخدام أنواع مختلفة من المحسنات (saponin, IMS3013, IMS 1113 and Fruend's) وکانت النسبة المستخدمة من هذه المحسنات هى 0.5% بالنسبة للصابونين. أما بالنسبة للمحسنات الأخرى فکانت النسب متساوية (1:1). وتم حقن کل محسن من المحسنات المختلفة فى مجموعة من الأرانب (ثلاث جرعات من الفيروس المثبط بالإضافة إلى المحسن بين کل جرعة أسبوع ثم الجرعة الرابعة من الفيروس الضارى فقط تم حقنها بعد اسبوع. وأثبتت النتائج باستخدام التجارب السيرولوجية المختلفة: التعادل المصلى، الاليزا، الترسيب فى الأجار أن استخدام IMS 3013 فى إنتاج مصل عالى المناعة يعتبر أجود أنواع المحسنات المختلفة حيث أن القوة العيارية للأجسام المناعية الموجودة فى هذا المصل وصلت إلى 1280 فى الفترة من 10-15 يوم واستمرت حتى اليوم 21 بعد نهاية الحقن. أما بالنسبة لباقى الأنواع فکانت أعلى نسبة من الأجسام المناعية فى اليوم العاشر بعد أخر حقن للأرانب.

 

Summary

 

Trials for production of hyperimmune sera against Rift Valley Fever (RVF) virus in balady rabbits were done by using different types of adjuvants (saponin, IMS 3013, IMS 1113 and Freund's adjuvants). The concentration of saponin was 0.5% added to the vaccine while the other adjuvants were added in equal amounts to the vaccine. Each group of rabbits received four injections subcutaneously with one week interval, the first 3 injections were the mixture of inactivated virus and adjuvant but the last one was the virulent virus only. The level of antibody of the prepared hyperimmune sera was evaluated and determined by 3 different serological tests (serum neutralization test "SNT", ELISA and agar gel precipitation test). They revealed that the best of choice adjuvant was IMS3013 which gave high antibody titre at the 10th-15th day post last injection and persist till the 21st day, the other types of adjuvants gave high level of antibody at 10th day post injection but less in titre than that obtained by using IMS3013.

 

Key words: Adjuvant, Rift Valley Fever, hyperimmune serum

 

Introduction

 

Rift Valley fever virus is a member of genus Phlebovirus in the family Bunyaviridae (Connie, 1996). RVF is one of the most important arthropod born viral diseases in Africa, primary affecting domestic animals with occasional involvement of man (Peters and Meegan, 1981).

The disease is most sever in sheep, cattle and goats causing high mortalities and abortion in pregnant animals. That disease runs in a rapid course with short incubation period (Swanepoel and Coetzer, 1994 and OIE, 1996).

RVF was recorded for the first time in Egypt during 1977-1978 affecting sheep, cattle and human (WHO, 1978). The second epidemic of RVF was documented in 1993 in animals as well as in human being in Aswan governorate (El-Gabery et al., 1994). Another epidemic of the disease occurred in 1997 (Abdel Rahim et al., 1999). Rapid diagnostic tools are needed to detect RVF in both human and animals to control the disease. Therefore, the aim of the present work was planned to prepare hyperimmune sera against RVF virus in rabbits using different adjuvants such as saponin, immunosol oil IMS3013, IMS1113 and Freund's adjuvants and to detect the best one that gives high level of antibody titre to be used for rapid detection of RVF disease for emergency diagnosis.

 

Materials and Methods

 

Material:

Animals:

1. Adult mice:

21-28 days old Swiss albino mice susceptible to RVF were used for virus titration and toxicity test for different adjuvants used in preparation of hyperimmune serum.

2. Baby mice:

3-5 days old Swiss albino mice susceptible to RVF were used for measuring the toxicity of used adjuvants.

3. Rabbits:

25 balady rabbits of 4-6 months old and weighed 1.5-2 kgm were used for preparation of polyclonal RVF hyperimmune sera.

Virus:

Rift valley fever (RVF) virus strain diagnosed as ZH501 and had a titre of 107.5 TCID50/ml. It was kindly supplied from RVF Dept., Veterinary Serum and Vaccine Research Institute, Abbasia, Cairo.

RVF vaccine:

Tissue culture binary inactivated Rift valley fever (RVF) vaccine was prepared according to Eman (1995).

Agar gel precipitation antigen:

It was supplied by RVF Dept., Veterinary Serum and Vaccine Research Institute, Abbasia, Cairo.

RVF antigen:

Lyophilized RVF cell lysate antigen was used for indirect ELISA and prepared according to Elian and Botros (1997).

Adjuvants:

1. Saponin:

It was obtained as a powder from KC Hlight LTD, England and prepared as 10% solution in double distilled water. It was kept overnight at 4oC then filtered through Seitz (EKS) filter (Marcoss et al., 1998).

2. Montanide IMS oil adjuvants:

They were obtained from Seppic, Paris, France. Each type of oil IMS 3013 and IMS 1113 was initially mixed at equal volume with tris NaCl buffer (v/v), pH (7.6). Then each one was added in equal volume to the inactivated RVF virus and low stear mixing at 250-300 rpm for 5 minutes was required (Barnett et al., 1998).

3. Complete and incomplete Freund's adjuvants:

They were supplied by BCG Dept., Veterinary Serum and Vaccine Research Institute, Abbasia, Cairo.

Toxicity test:

Adult mice as well as baby mice were used for the safety of adjuvants used in preparation of hyperimmune sera. Intracerebral inoculation of baby mice and intraperitoneal inoculation of adult mice with different types of adjuvants and then observed for 10 days post inoculation.

Addition of adjuvants:

- Saponin:

It was added with 0.5 % to RVF binary inactivated vaccine following Marcoss et al. (1998).

- Complete and incomplete Freund's adjuvants:

Complete and incomplete Freund's adjuvants were added in equal amount to RVF antigen according to Green and Manson (1990) and Zeidan et al. (2000).

Preparation of polyclonal RVF hyperimmune sera in rabbits (Experimental Design):

25 balady rabbits were classified into 5 groups, each group contains 5 rabbits as follows:

Group I: It was inoculated S/C with 1ml. Mixture of saponin and inactivated RVF vaccine 0.5ml in each site of the thigh of rabbit. The inoculation was repeated weekly for further 3 weeks except the last injection was 1ml of virulent RVF virus has a titre of 107 TCID50/ml.

Group II: It was inoculated S/C with 1ml of the mixture of inactivated RVF virus and IMS 3013 in equal volumes and complete the injection in the same manner as groups (I).

Group III: It was inoculated S/C using IMS 1113 as in group (II).

Group IV: It was inoculated S/C with 1ml inactivated RVF virus and incomplete Freund's adjuvant and the other two injections by using complete Freund's adjuvant instead of incomplete Freund's adjuvant and the last injection with RVF virus alone.

Group V: Control non-inoculated group.

All groups of rabbits were observed for any signs of illness and bled from the marginal ear vein at the 5th, 10th, 15th, 21st days post of last injection, the sera were separated for measuring the level of antibody titre by using:

1. Serum neutralization test:

It was performed according to Swanepel et al. (1986).

2. Indirect enzyme linked immunosorbent assay (ELISA):

It was applied according to Voller et al. (1976).

3. Agar gel precipitation test:

It was applied according to Eman (1990).

 

Results and Discussion

 

            Rift valley fever is an acute arthropod born viral disease affect many species of animal and human, causing high mortalities among lamb and abortion in pregnant animals (Swanepoel and Coetzer, 1984).

Reappearance of RVF epidemic in Egypt during 1981 and 1993 demonstrated that this disease could extend its geographical boundries and cause serious human and animal disease as detected for the first time in Saudi Arabia (Fagbo, 2002).

The aim of this study is to prepare standard hyperimmune sera to be used as diagnostic tools for early detection of RVF using different kinds of adjuvants and compare between them.

Result of toxicity due to different adjuvants in baby and adult mice in shown in Table (1). It revealed that the non-toxic percentage of saponin which can be added to the inactivated vaccine suspension is 0.5% and this result was in agreement with Marcoss et al. (1998) while the two percentages of IMS 3013 and IMS 1113 which added to the inactivated virus was 50% which gave no deaths in mice and this result agree with Ali and Roshdy (2004). Also, the incomplete and complete Freund's adjuvants gave non-toxic results when used in equal amount with the inactivated RVF virus. These results agree with Zeidan et al. (2000).

All types of hyperimmune sera prepared using different adjuvants were tested to determine the level of antibody titre represented in Table (2) showed that the highest level of antibody titre reached at the 10-15 days post last injection in all kinds of adjuvants used, but the highest titre obtained by using IMS 3013 and IMS 1113 oil adjuvants (1280) and continue for 21 days post the last injection for IMS 3013 and these results are in agreement with Barnett et al. (1998)who said that IMS 3013 is a new generation of oil adjuvant termed (immunosol) which form micro-emulsion it includes new immunostimulants, listed as grass substance which elicit both humoral and cell-mediated immune response.

According to the results of ELISA, Table (3) indicated that the highest level of antibody titres represented at 10-15 days post injection (1280) for IMS 3013 while IMS 1113 the highest titre was at 10 days only. Regarding to saponin and Freund's adjuvant, they gave a titre of 640 at 10 days post immunization. These results were in agreement with Taradi (2003) who found that the highest antibody titre reached at 10th day post last injection.

Table (4) showed the results of agar gel precipitation test of prepared hyperimmune sera which confirm the same results showed by SNT and ELISA as cited by Samy et al. (2001) they found that Freund's adjuvant used for preparation of hyperimmune sera give the highest titre at 10 days post injection.

The conclusion of the present work is that the application of oil adjuvant IMS 3013 was the best of choice for increasing and persistence of high level of antibody.

 

Table 1: Toxicity of different types of adjuvants used in preparation of hyperimmune sera against RVF

 

Adjuvant

Percentage (%)

Baby mice (I/C)

Adult mice (I/P)

Saponin

1

7/7 *

* 8/10

0.5

0/7

0/10

IMS 3013

50

0/7

0/10

25

0/7

0/10

IMS 1113

50

0/7

0/10

25

0/7

0/10

Complete and incomplete Freund's

50

0/7

0/10

Control

-

0/7

0/10

 

* Number of dead mice / Number of tested mice.

 

Table 2: Mean serum neutralizing antibody titre of hyperimmune sera against RVF virus using different adjuvants

 

Groups of rabbits

Treatment

(adjuvant)

Before

Immunization

Days post immunization

5

10

15

21

Group (I)

Saponin

0

80

640

640

320

Group (II)

IMS 3013

0

640

1280

1280

1280

Group (III)

IMS 1113

10

160

1280

1280

640

Group (IV)

Fruend's

0

160

640

640

320

Group (V)

Control

10

10

10

10

10

 

Table 3: Results of ELISA test of hyperimmune sera against RVF virus using different adjuvants

 

Groups of rabbits

Treatment

(adjuvant)

Before

Immunization

Days post immunization

5

10

15

21

Group (I)

Saponin

0

20

640

640

80

Group (II)

IMS 3013

0

320

1280

1280

640

Group (III)

IMS 1113

0

160

1280

640

640

Group (IV)

Fruend's

0

320

640

160

160

Group (V)

Control

0

10

10

10

10

 

 

Table 4: Mean agar gel precipitating antibody titre of hyperimmune  serum against RVF virus using different adjuvants

 

Groups of rabbits

Treatment

(adjuvant)

Before

Immunization

Days post immunization

5

10

15

21

Group (I)

Saponin

0

20

320

320

80

Group (II)

IMS 3013

0

160

640

640

640

Group (III)

IMS 1113

0

160

640

640

320

Group (IV)

Fruend's

0

80

320

640

80

Group (V)

Control

0

0

0

0

0

 

References

 

Abdel Rahim, I.H.; Abdel Halim, U. and Hussein, M. (1999): An epzootic of Rift valley fever in Egypt in 1997. Rev. Sc. Tech. Dec., 18 (3): 741-748.

Ali, S.M. and Roshdy, O.H. (2004): Comparative evaluation of the immune efficiency for FMD vaccines prepared with IMS 3013 and aluminium hydroxide gel in Guinea pigs. Egypt. Vet. Med. Assoc.., 64 (2): 237-244.

Barnett, P. Dani and Williams, L. (1998): Emergency vaccination of pigs against foot and mouth disease. Protection against disease and reduction in contact transmission. Vaccine, 16 (7): 745-754.

Connie, S.S. (1996): Bunyaviridae. The viruses and their replication. Field Virology Third Edition, Volume 1, Chapter 47. Philadelphia, Lippincott, Raven.

El-Gabery, G.H.; Nawal, M.A.; Hadia, A.; Fathia, M.M. and Ayoub, N.N. (1994): Unclassical picture of Rift valley fever in man and animals in Aswan Governorate in May 1993. Vet. Med. J., Giza, 42 (1): 135-138.

Elian, K.A. and Botros, B. (1997): Production and evaluation of Rift valley fever diagnostic antigens by ELISA technique. 3rd Arab. Vet. Med. Cong., March 22-26, Cairo.

Eman M.S. Shalakamy (1990): Studies on the validity of Rift valley fever vaccine. M.V.Sc., Microbiology, Fac. Vet. Med., Alex. Univ.

Eman M.S. Shalakamy (1995): Studies on the validity of Rift valley fever vaccine inactivated with binary. Ph.D. Thesis, Virology, Fac. Vet. Med., Alex. Univ.

Fagbo, S.F. (2002): The involving transmission pattern of RVF in the Arabian Peninsula. AMNY Acad. Sc., 969: 201-204.

Green, A. and Manson, M.M. (1990): Production of polyclonal antisera. Immunochemical Protocols. 2nd Method in Molecular Biology, 80: 1-4.

Marcoss, T.N.; Lily, S. Salama and Elian, A. Aly (1998): Studies of different adjuvants on the immune response of sheep to Rift valley fever inactivated vaccine. Vet. Med. J., Giza, 64 (4B): 719-727.

OIE (1996): Rift valley fever. Manual of Standards of Diagnostic Tools and Vaccine, 286-287.

Peters, C.J. and Meegan, J.M. (1981): Rift valley fever. P. 403-420. In G.W. Beran (ed)., CRC Handbook series in Zoonoses, section B. Viral zoonoses, Vol. 1 CRC Press Inc., Bo. Ca Raton, Fla.

Samy, S.; Zeidan, S.M.; Iman K.A. Kassem and Taha, M.M. (2001): Trials for preparation and application of peroxidase conjugated antibodies against Rift Valley Fever. J. Egypt. Vet. Med. Ass., 61 (2): 321-328.

Swanepoel, R. and Coetzer, J.A.W. (1994): Rift valley fever, infectious diseases of livestock with special reference to South Africa, edited by J.A.W. Coetzer, G.R. Thomson and R.C. Tustin. Cape Town: Oxford University Press, 1: 688-717.

Swanepoel, R.; Struhers, J.K.; Erasmus, M.J.; Shephered, S.P.; Mcgillivray, G.M.; Erasmus, B.J. and Barnard, B.J.H. (1986): Comparison of techniques for demonstrating antibodies to Rift valley fever virus. J. Hyg. Cambridge, 97: 317-329.

Taradi, A.F. Sayed (2003): Production of some diagnostic reagents for Rift valley fever. Ph.D. Thesis, Dept. of Microbiology, Fac. Vet. Med., Cairo Univ.

Voller, A.; Bidwell, D. and Bartlett, A. (1976): Microplate enzyme immunoassay for the immunodiagnosis of virus infection. Am. Soc. Micro., 506-512.

WHO (1978): Rift valley fever. A Review. Bull. Epiz. Dis. Afr., 5: 431-458.

Zeidan, S.M.; Abdel Aty, M.M.; Iman K.A. Kassem and Deghaidy Wafaa (2000): Preliminary studies for preparation of conjugated peroxidase antiserum against bovine virus diarrhoea (BVD) virus. Beni-Suef Vet. Med. J., X 1: 113-125.

 

 

 

References

 
Abdel Rahim, I.H.; Abdel Halim, U. and Hussein, M. (1999): An epzootic of Rift valley fever in Egypt in 1997. Rev. Sc. Tech. Dec., 18 (3): 741-748.
Ali, S.M. and Roshdy, O.H. (2004): Comparative evaluation of the immune efficiency for FMD vaccines prepared with IMS 3013 and aluminium hydroxide gel in Guinea pigs. Egypt. Vet. Med. Assoc.., 64 (2): 237-244.
Barnett, P. Dani and Williams, L. (1998): Emergency vaccination of pigs against foot and mouth disease. Protection against disease and reduction in contact transmission. Vaccine, 16 (7): 745-754.
Connie, S.S. (1996): Bunyaviridae. The viruses and their replication. Field Virology Third Edition, Volume 1, Chapter 47. Philadelphia, Lippincott, Raven.
El-Gabery, G.H.; Nawal, M.A.; Hadia, A.; Fathia, M.M. and Ayoub, N.N. (1994): Unclassical picture of Rift valley fever in man and animals in Aswan Governorate in May 1993. Vet. Med. J., Giza, 42 (1): 135-138.
Elian, K.A. and Botros, B. (1997): Production and evaluation of Rift valley fever diagnostic antigens by ELISA technique. 3rd Arab. Vet. Med. Cong., March 22-26, Cairo.
Eman M.S. Shalakamy (1990): Studies on the validity of Rift valley fever vaccine. M.V.Sc., Microbiology, Fac. Vet. Med., Alex. Univ.
Eman M.S. Shalakamy (1995): Studies on the validity of Rift valley fever vaccine inactivated with binary. Ph.D. Thesis, Virology, Fac. Vet. Med., Alex. Univ.
Fagbo, S.F. (2002): The involving transmission pattern of RVF in the Arabian Peninsula. AMNY Acad. Sc., 969: 201-204.
Green, A. and Manson, M.M. (1990): Production of polyclonal antisera. Immunochemical Protocols. 2nd Method in Molecular Biology, 80: 1-4.
Marcoss, T.N.; Lily, S. Salama and Elian, A. Aly (1998): Studies of different adjuvants on the immune response of sheep to Rift valley fever inactivated vaccine. Vet. Med. J., Giza, 64 (4B): 719-727.
OIE (1996): Rift valley fever. Manual of Standards of Diagnostic Tools and Vaccine, 286-287.
Peters, C.J. and Meegan, J.M. (1981): Rift valley fever. P. 403-420. In G.W. Beran (ed)., CRC Handbook series in Zoonoses, section B. Viral zoonoses, Vol. 1 CRC Press Inc., Bo. Ca Raton, Fla.
Samy, S.; Zeidan, S.M.; Iman K.A. Kassem and Taha, M.M. (2001): Trials for preparation and application of peroxidase conjugated antibodies against Rift Valley Fever. J. Egypt. Vet. Med. Ass., 61 (2): 321-328.
Swanepoel, R. and Coetzer, J.A.W. (1994): Rift valley fever, infectious diseases of livestock with special reference to South Africa, edited by J.A.W. Coetzer, G.R. Thomson and R.C. Tustin. Cape Town: Oxford University Press, 1: 688-717.
Swanepoel, R.; Struhers, J.K.; Erasmus, M.J.; Shephered, S.P.; Mcgillivray, G.M.; Erasmus, B.J. and Barnard, B.J.H. (1986): Comparison of techniques for demonstrating antibodies to Rift valley fever virus. J. Hyg. Cambridge, 97: 317-329.
Taradi, A.F. Sayed (2003): Production of some diagnostic reagents for Rift valley fever. Ph.D. Thesis, Dept. of Microbiology, Fac. Vet. Med., Cairo Univ.
Voller, A.; Bidwell, D. and Bartlett, A. (1976): Microplate enzyme immunoassay for the immunodiagnosis of virus infection. Am. Soc. Micro., 506-512.
WHO (1978): Rift valley fever. A Review. Bull. Epiz. Dis. Afr., 5: 431-458.
Zeidan, S.M.; Abdel Aty, M.M.; Iman K.A. Kassem and Deghaidy Wafaa (2000): Preliminary studies for preparation of conjugated peroxidase antiserum against bovine virus diarrhoea (BVD) virus. Beni-Suef Vet. Med. J., X 1: 113-125.