USE OF QUILLAJA SAPONARIA EXTRACTS FOR THE PREVENTION AND CONTROL OF BACTERIAL INFECTIONS IN FISH

Abstract

The present invention provides a new use of Quillaja extracts for manufacturing a medicinal composition for the prevention and control of bacterial diseases in fish, which is preferably administered orally in combination with food. Other objects of the invention are related to a medicinal composition and a food composition for the prevention and control of bacterial diseases in fish comprising said Quillaja extracts.

Claims

1. Use of a Quillaja saponaria extract as active ingredient for the manufacture of a medicinal composition useful for the prevention and control of a bacterial disease in fish.

2. The use according to claim 1, wherein the medicinal composition is orally administered to the fish in a dose range between 0.9 to 12 mg of saponins/Kg of live weight of fish.

3. The use according to claim 2, wherein the administration to fish is carried out orally in combination with food.

4. The use according to claim 1, wherein the bacterial disease is caused by Gram negative bacteria.

5. The use according to claim 4, wherein the Gram negative bacteria are selected from the group consisting of the genus Piscirickettsia, Aeromonas and Vibrio.

6. The use according to claim 5, wherein bacteria belonging to genus Piscirickettsia, are Piscirickettsia salmonis.

7. The use according to claim 1, wherein the bacterial disease is caused by Gram positive bacterium.

8. The use according to claim 7, wherein the Gram positive bacteria belong to the genus Renibacterium.

9. The use according to claim 1, wherein fish are salmonids.

10. The use according to claim 9, wherein the salmonids are selected from the group consisting of Salmo salar, Salmo trutta, Salmo gairdnerii, Oncorhynchus mykiss and Oncorhynchus kisutch species.

11. A medicinal composition for the prevention and control of bacterial diseases in fish, wherein it comprises a Quillaja saponaria extract as active ingredient and an appropriate excipient.

12. The composition according to claim 11, wherein the Quillaja saponaria extract is in a proportion between 2% and 90% w/w of the total weight of the composition.

13. A food composition for the prevention and control of bacterial diseases in fish, wherein it comprises a Quillaja saponaria extract as active ingredient and an appropriate additive.

14. The composition according to claim 13, wherein the Quillaja saponaria extract is in a proportion less than 6% w/w of the total weight of the composition.

15. A method for the prevention and control of bacterial disease in fish, wherein said method comprises the steps of: providing a medicinal composition comprising a Quillaja saponaria extract as active ingredient; and administering said medicinal composition to the fish in a dose range between 0.9 to 12 mg of saponins/Kg of live weight of fish.

16. The method according to claim 15, wherein the administration to fish is carried out orally in combination with food.

17. The method according to claim 15, wherein the bacterial disease is caused by Gram negative bacteria.

18. The method according to claim 17, wherein the Gram negative bacteria are selected from the group consisting of the genus Piscirickettsia, Aeromonas and Vibrio.

19. The method according to claim 18, wherein bacteria belonging to genus Piscirickettsia, are Piscirickettsia salmonis.

20. The method according to claim 15, wherein the bacterial disease is caused by Gram positive bacterium.

21. The method according to claim 20, wherein the Gram positive bacteria belong to the genus Renibacterium.

22. The method according to claim 15, wherein fish are salmonids.

23. The method according to claim 22, wherein the salmonids are selected from the group consisting of Salmo salar, Salmo trutta, Salmo gairdnerii, Oncorhynchus mykiss and Oncorhynchus kisutch species.

Description

BRIEF DESCRIPTION OF FIGURES

[0022] FIG. 1 is the chromatographic profile of a complete Quillaja saponaria Molina extract measured by HPLC, where the main saponins QS7, QS17, QS18 and QS21 are indicated.

[0023] FIG. 2 is an image obtained by optical microscopy of an ASK salmonid cell line in the presence of different concentrations of Quiflaja extracts UD100-Q (Ultra Dry 100-Q) and QD100 (Quillaja Dry 100).

DETAILED DESCRIPTION OF THE INVENTION

[0024] The present invention describes a novel use of plant extracts of Quillaja saponaria for the prevention and control of bacterial infections that affect fish. The inventors have found that different extracts of Quillaja saponaria Molina saponins, a Chilean endemic tree, have a protective effect against bacterial infections affecting salmonid farming. The inventors have tested and acquired appropriate dose concentrations of Quillaja extracts to be used safely in salmon, without altering pathophysiological treated individuals.

[0025] The present invention relates to the use of Quillaja extracts, which have a specific profile of saponins. In all cases, the profiles of these extracts are saponins own exclusive of Quillaja, either in purified extracts, partially purified or unpurified.

[0026] Entire or unfractionated extracts of Quillaja saponaria Molina have a distinctive profile and own saponins containing over 100 types of chemically different saponins. The main saponins are QS7, QS17, QS18 and QS21, as seen in the chromatographic profile of FIG. 1. The relative concentrations of these saponins depend on the source of the raw material. Additionally, the partially purified extracts (from 2 to 90% w/w or w/v of saponins depending on powder or liquid product) contain non-saponin compounds, which mainly include a mixture of polyphenols and, in smaller amounts, other sugars.

[0027] Extracts of Quillaja saponins can be obtained industrially as powder or liquid extracts, with varying degrees of purification. For example, for the purposes of the present invention various commercial extracts of Quillaja saponaria may be used, such as those shown in Table 1 below.

TABLE-US-00001 TABLE 1 Commercial extracts (Desert King Chile) of Quillaja saponaria useful for the present invention. Product name Description Ultra Dry Quillaja saponaria Molina powder extract, mainly 100-Q containing triterpene saponins up to 65% w/w. Quillaja Dry Quillaja saponaria Molina powder extract, mainly 100 containing triterpene saponins up to 25% w/w. Vax Sap Highly purified Quillaja saponaria Molina powder extract mainly containing triterpene saponins >90% w/w. QL 1000 Liquid extract mainly of Quillaja saponaria Molina at a concentration of 8% w/v of saponins. QL Perm Liquid extract mainly of Quillaja saponaria Molina at a concentration of 2% w/v of saponins.

[0028] The present invention discloses the use of Quillaja saponaria extracts to prepare a medicinal composition and a food composition for the prevention and/or control for undesired medical conditions related to bacterial diseases in fish. By means of the new use of Quillaja saponaria extracts described in the present invention, drugs can be obtained intended to prevent, control, cure, treat or alleviate bacterial diseases in fish; and also can be obtained for medicinal use in food products that have therapeutic properties with the same purposes.

[0029] The present invention encompasses the use of Quillaja extracts against bacteria that affect fish, including Gram negative bacteria such as Piscirickettsia salmonis, Aeromonas salmonicida and Vibrio spp; and Gram positive bacteria such as Renibacterium salmoninarum, or any other bacteria that affect the health of fish, either in freshwater or seawater. The most susceptible species of fish are salmonid fish such as rainbow trout (Oncorhynchus mykiss), brook trout (Salvelinus fontinalis), brown trout (Salmo trutta), Arctic char (Arctic char), Atlantic salmon (Salmo salar) Pacific salmon (Oncorhynchus spp.), chum salmon (Oncorhynchus keta), chinook salmon (Oncorhynchus tshawytscha), among others.

[0030] Quillaja saponaria extracts of the present invention are used to prepare a medicinal composition or a food product for the prevention or control of post-bacterial infection in fish. Said products are administered orally in a solid or liquid form.

[0031] For the use of Quillaja saponaria extracts in the preparation of a composition or medicinal preparation, medicine or veterinary composition, different formulations containing such extracts as active ingredient can be used. Quillaja saponaria extracts are in a proportion between 2% and 90% w/w of the total weight of the composition. The pharmaceutical form can be powder, oil suspension or solid as part of a food pellet. In a preferred embodiment, the medicinal composition comprises veterinary suitable excipients for oral administration in salmonids, such as lactose, corn starch, silicon dioxide, among others well known by experts of this area.

[0032] For the use of Quillaja saponaria extracts in the obtention of a product or food composition or dietary supplement, said extracts are mixed with fish food in a pellet form, which is mixed with an equivalent to 2% of oil/weight of the pellet to impregnate, to adhere the extract to the food. Examples of fish diets widely known in the industry are produced by Ewos, BioMar, Salmofood, among others. In a preferred embodiment, the food composition comprises food additives appropriate for oral administration in salmonids, such as fishmeal, fish and/or vegetable oil, vitamins, minerals, among others well known by experts of the area.

[0033] Examples have been included for the purpose of illustrating the invention, with the preferred embodiments and comparative examples, but in no case to be considered as a restriction to the scope of the patent application, which is only delimited by the content of the claims appended hereto.

EXAMPLES

Example 1: Evaluation of In Vitro and In Vivo Toxicity of Quillaja Extracts

[0034] In Vitro Citotoxicity Assay in Salmon Cell Lines.

[0035] Assays with Quillaja extracts products were tested on cell monolayers derived from salmon in order to assess the citotoxicity. The cell lines used were SHK-1 and ASK. SHK-1 line, described as macrophage-like cells (Salmo salar; ECACC 97111106 Number, European Collection of Cell Culture, Salisbury, Wilts, SP4 0JG, UK) was cultured at 15 C. in Leibovitz 15 medium (L-15, Gibco, Invitrogen, Carlsbad, Calif., USA) supplemented with 10% v/v fetal bovine serum (Hyclone, Thermo Fisher Scientific, Logan, Utah, USA), 4 mM L-glutamine (Gibco), 1% v/v 2-mercaptoethanol (2-ME, Gibco) and 50 g/mL gentamicin (US Biological, Swampscott, Mass., USA). The cell line ASK (Atlantic Salmon Kidney, ATCC) CRL2747) was cultured at 16 C. in Leibovitz (L-15, Hyclone, Thermo Scientific), supplemented with gentamicin (50 pig/mL), L-glutamine (4 mM) (Gibco, Thermo Scientific), 2-mercaptoethanol 1% (v/v) (2-ME, Gibco) and 10% fetal bovine serum (v/v) (FBS, Hyclone).

[0036] All Quillaja extracts products were prepared in MEM or 15 Leibovitz medium at a concentration of 1 mg/mL, being dissolved at 37 C. for 3 hours with gentle stirring. All prepared solutions of these extracts were filtered through a 0.22 m nitrocellulose membrane to avoid contamination in cell cultures. The evaluated dilutions were prepared by serial dilutions from the standard solution.

[0037] To assess the cytotoxicity of Quillaja extracts in salmonid cell lines, 510.sup.5 cells/well were seeded in 6-well plates and incubated in 2 mL of culture medium as final volume for 72 hours at 15 C. After this time the culture medium was replaced with fresh medium and the confluency was verified. After 24 hours, cells were incubated with the different Quillaja extracts in 1 mL of culture medium. Cytotoxicity assessment was made after 24 hours incubation with Quillaja extracts. For this, the cells were washed twice with cold PBS and then disrupted using a solution with 0.05% trypsin and 0.02% EDTA. Cells were analyzed by flow cytometry (FACS Canto II (Becton Dickinson) and cytosol incorporation of propidium iodide was determined as a marker for dead cells. Cells were incubated with a solution of ethanol as a positive control of cell death. As negative control, cells were incubated without Quillaja extracts, but were subjected to the same conditions. Additionally, cytotoxicity was assessed by visualizing cells by light microscopy.

[0038] Results indicated that the concentration that exhibited a 50% of cell death (CC.sub.50) varied between 3.5 and 83.4 g/mL and CC.sub.90 varied between 4.7 and 92.6 pig/mL depending on the product used as indicated in Table 2. FIG. 2 shows representative results with products QD 100 (Quillaja Dry@ 100) and UD 1000 (Ultra Dry 100-0) by viewing the cell monolayer through optical microscopy.

TABLE-US-00002 TABLE 2 Cell citotoxicity (CC.sub.50) by flow citometry using propidium iodide. Product CC.sub.50 in SHK-1 (g/mL) CC.sub.90 in SHK-1 (g/mL) Vax Sap 20.4 25.3 Ultra Dry 100-Q 22.1 29.2 Quillaja Dry 100 83.4 92.6 QL 1000 3.7 6.5 QL Perm 3.5 4.7

In Vivo Oral Citotoxicity Assay in Fish.

[0039] To determine the short term oral toxicity (60 days) in fish, 550 Atlantic salmon (Salmo salar) fish clinically healthy were used, with an average weight of 9.5 g. Prior to the experiment, fish were acclimated for 8 weeks, during which 50 fish were randomly examined to check health condition through necropsy and microbiological tests to verify the absence of pathogens such as viruses, bacteria and parasites (Thoesen J. (1994) Suggested procedures for the detection and identification of finfish and shellfish Certain pathogens, 4.sup.th edn. Fish Health Section, American Fisheries Society, Bethesda, Md.; OIE (Office International des Epizooties) (2000) Diagnostic Manual for aquatic animals diseases, 3rd edn. OIE, Paris).

[0040] Fish were held in 1,000 L capacity fiberglass tanks, each with independent water supply. The level of dissolved oxygen in the water was 10 mg/L. Water temperature, and oxygen levels of nitrogen compounds were controlled daily.

[0041] Extruded feed pellets (Micro 10 prepared by Ewos) were used to prepare five diets with 0, 100, 200, 300 and 600 ppm of saponins/Kg of food. These doses are equivalent to 0, 2, 4, 6 and 12 mg of saponins/Kg of live weight of fish, respectively. Fish were divided into 10 individual tanks with 50 fish each (5 groups with duplicate).

[0042] Fishes were hand fed twice a day with diets according to the expected live weight and growth rate of fish. To do this the weight of fish where obtained at 0, 30 and 60 post-start of the experiment.

[0043] Fish were observed at least three times daily during the study, recording any possible clinical signs and mortalities. The experiment lasted 60 days. Results during the course of the trial showed no mortalities or abnormalities attributable to the product administered at the different doses. Additionally, no macro or microscopic pathological alterations in the liver or intestine in any treated group, compared to the control group, were found. In conclusion, administration of Quillaja extracts were safe at tested doses.

Example 2: Use of Quillaja Extracts for the Prevention and/or Treatment of In Vitro Bacterial Infection in Fish

Antibacterial Activity of Quillaia Extracts Against P. Salmonis.

[0044] The antibacterial activity of the extracts was measured through an infection assay in CHSE-214 cell monolayers derived from chinook salmon (Oncorhynchus tshawytscha, ATCC Number CRL-1681, American Type Culture Collection). 1.210.sup.6 cells/well were seeded in 6-well plates and incubated at a confluence of 70%. To determine antibacterial activity, culture medium was removed and the cell monolayer was infected with a bacterial suspension of a Chilean P. Salmonis isolated with an approximate of 10.sup.5 genome copies/mL in culture medium (MEM, Hyclone) supplemented with HEPES buffer 10 mM (Hyclone), non-essential aminoacids (lx) (Hyclone) and 10% Fetal Bovine Serum (Hyclone). In addition, when was necessary the culture medium was supplemented with different Quillaja extracts, particularly Ultra Dry 100-Q (UD100Q, Desert King) (65% w/w of saponins) or Quillaja Dry 100 (QD100, Desert King) (25% w/w of saponins). Then, the capacity of P. salmonis infection was compared with the inoculum without Quillaja extracts.

[0045] The efficiency of the infection was quantified by qPCR through amplification of the 16S ribosomal gene. All conditions were done in triplicate. As a result, it was obtained that Quillaja extracts inhibited bacterial replication, where the product Ultra Dry 100-Q managed to reduce replication by 97.98% when compared to the untreated control. Quillaja Dry 100 product achieved a 64.40% inhibition of bacterial replication, as shown in Table 3 below.

TABLE-US-00003 TABLE 3 Results of infection inhibition of Quillaja extracts in CHSE-214 cells against Piscirickettsia salmonis. Inhibitory concentration of total Ct saponins Inhibition Treatment (dRn) Copies/mL (mg/mL) % Control without 15.29 7.94E+7 0 0 bacteria UD100Q (65% of 20.07 1.60E+6 0.00016 97.98 saponin purification) QD100 (25% of 14.73 1.94E+7 0.00053 64.40 saponin purification)

Example 3: Preparation of a Fish Feed Impregnated with Quillaja Extracts

[0046] Quillaja extracts were mixed with fish oil to achieve the desired concentrations and then this mixture was impregnated at a rate of 4.9:1 (oil:dry pellet) in fish feed. This was done using an industrial mixer and incorporating oil in the food in movement for at least 5 minutes and additional mixing for at least 10 minutes.

[0047] To obtain a food composition impregnated with Quillaja extracts at the effective dose, important parameters to be considerated are saponin doses/live weight of fish to be administered in the range from 0.9 to 12 mg of saponins per kilogram of live weight, fish weight and the amount of food they consume. The percentage of saponins in each particular Quillaja extract product should also be noted beforehand. Thus, any skilled person can obtain the ratio of saponins to be incorporated in the food.

[0048] As an example, to prepare a food composition considering the QL Perm product, it must be used in a proportion of 6% w/w (60 g of product per kilogram of fish food).

Example 4: Use of Quillaja Extracts for the Prevention and/or Treatment of Fish Bacterial Infections In Vivo

In Vivo Efficacy of Quillaja Products Against Piscirickettsia Salmonis

[0049] One hundred and eighty Atlantic salmon (Salmo salar) weighting 30 g (fry) were used. Selected fishes had no history of ISAv and P. salmonis infection, which was checked by sampling and subsequent analysis of molecular diagnosis by RT-PCR in real time. Additionally, fishes were checked for bacterial and viral diseases. Before transferring to the experimental station, 60 fish were sampled for checking health status, which considered necropsy, gill inspection, intestine and skin sampling, Gram staining in internal organs (spleen, kidney and brain), staining with acridine orange in gills, IFAT analysis for BKD and SRS, and RT-PCR for IPNv. The general clinical appearance of the fish was acceptable and was within what is considered normal for the salmon industry and therefore representative of the Chilean fish industry.

[0050] During the test, fishes were fed with a diet of 15 micro EWOS 15CP at a daily rate of 0.75% of body weight (bw/day) impregnated with a Quillaja saponaria extract (Ultra Dry 100-Q o Quillaja Dry 100, Desert King) in a dose of 3.75 mg product/Kg of body weight.

[0051] The experiment was designed with the following experimental groups: positive control (fish challenged with the bacteria and fed without Quillaja extracts products), negative control (fish not challenged with bacteria and fed without Quillaja extracts products), and treatment groups (fish challenged with the bacteria and fed with Quillaja extracts products).

[0052] The challenge was performed using an experimental infection with Piscirickettsia salmonis by intraperitoneal injection in the ventral line at a rate of 0.1 mL of inoculum per fish, which had a title of 310.sup.6 bacterial genome copies/mL. For the negative control group, fish were inoculated with 0.1 mL of culture medium. All experimental groups followed the following schedule, as indicated in Table 4 below.

TABLE-US-00004 TABLE 4 Time schedule for the in vivo efficacy study of Quillaja extracts for the prevention and/or control of piscirickettsiosis. Day 15 0 1 7 45 Acclimation Start Finish Treatment with orally given Start Finish quillay extracts Ultra Dry 100-Q or Quillaja Dry 100 Infection with Piscirickettsia Start/ salmonis Finish Post-infection follow up Start Finish Post-treatment follow up Start Finish Assay time Start Finish

[0053] Results showed that Ultra Dry 100-Q reduced mortality associated with infection of Piscirickettsia salmonis (SRS) by 37% when compared with the group challenged with the bacteria and fed with normal diet (without Quillaja extract). Quillaja Dry 100 achieved a reduction of 18% compared to the same control, as shown in Table 5.

TABLE-US-00005 TABLE 5 Results of the in vivo study with functional diets containing Quillaja extracts. Level of Mean Mean protection mortality survival compared to Experimental groups (%) (%) controls (%) Normal diet 0 100 Normal diet + infection with 45.8 54.2 Piscirickettsia salmonis Diet with UD100Q (66% 29 71 36.68% saponin purity) + infection wth P. salmonis Diet with QD100 (26% 37.5 62.5 18.12% saponin purity) + infection with P. salmonis

[0054] Thus, results regarding the use of Quillaja saponaria extracts for the prevention and/or control of bacterial diseases in fish showed that these are highly effective, reflecting a protective effect against in vitro Piscirickettsia salmonis with efficacy over 60%; while in vivo a decrease in mortality associated to the bacterial infection was achieved between 18 to 36% at a concentration of 3.75 mg of product/Kg live weight of fish using Quillaja extracts at different saponin purities.