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AquacultureResearch, 2010, 41, 356^372 doi: 10.1111/j.1365-2109.2009.02374.x
Nutrition and immunity: an update
VivianeVerlhacTrichet
ResearchCentreofAnimalNutritionandHealth,NRD/CA^DSMNutritionalProductsFrance,Saint-LouisCedex,France
Correspondence:V VerlhacTrichet Research Centre of Animal Nutrition and Health, NRD/CA^DSM Nutritional Products France, BP
170,68305Saint-Louis Cedex, France. E-mail: viviane.verlhac@dsm.com
Abstract Mostrecentreviewsonthetopicofnutritionandim-
Immunity encompasses all mechanisms and re- munity or, more generally, health are from Lall
sponsesusedbytheorganismtodefenditselfagainst (2000)andVerlhacandViswanath(2004).
bacteria, viruses or parasites. Adequate supply and The¢rstsectionreviews¢shandshrimpimmunity,
balanceofnutrientsarerequiredforpropere⁄ciency comparing innate and adaptive immune mechan-
of the host defences. Research has identi¢ed dietary isms, highlighting the importance of innate immu-
factors that a¡ect human and animal immune re- nity in those animals.The second section highlights
sponses like amino acids, fatty acids, minerals and the key ¢ndings in the area of nutrition and immu-
vitamins. Some of these nutrients have been proven nity, analysing the relationship between immune
to have speci¢c actions on immunity whenprovided responses and the di¡erent classes of nutrients, ex-
at pharmacological doses. This paper will review tendingittonutraceuticalsusedasfeedadditives.
thesenutrientsandtheircurrentuseinaquaculture. Thelastsectionwilldealwiththeevaluationofthe
The immune system is an e⁄cient but complex sys- immuneresponsesof¢shandthemethodscurrently
tem. Its complexity has made the assessment of the usedincludingcellularandmolecularapproaches,in
e¡ects of diets di⁄cult. Nevertheless, the standardi- line with the study of the nutritional modulation of
zationof methodologyaswellastheuseofnewtech- the immune response. Prophylaxis means and per-
niques at the cell or the gene level should help to spectives are discussed inthe conclusions.
better understand the mechanisms of immune mod-
ulation.Thispaperwillreviewthemajorfunctionsof
¢shandshrimpimmunesystemandthemethodolo- Fish and shrimp immunity
gies used. Cellular and humoral functions including
cytokines will be discussed in relation to potential Being immune corresponds to the capacityof an or-
means to modulate them and the underlying me- ganismtoresist infectionthroughthe recognitionof
chanism.Abetterunderstandingofthemechanisms a foreign agent, the responses of the system to ¢ght
of modulation of the immune functions should help this agent and the memoryof this agent, in order to
in the discovery of new dietary factors to improve quickly respond to a second aggression. In compari-
the immune status of the animal, leading to better sonwith mammals, ¢sh have a less speci¢c immune
disease resistance. system with a shorter response, a limited immuno-
globulin repertoire, a weak memory (which reduces
Keywords: aquaculture, ¢sh, shrimp, nutrition, thepotentialforlong-termprotection)andamucosal
immunity,modulation response (whose importance incomparisonwiththe
systemic response is not reallyknown).The immune
response of ¢sh is di¡erentiated between humoral-
Introduction and cellular-mediated systems, with the same type
of immunecells suchas BandTlymphocytesacting
The paper intends to provide an update on the rela- intheseresponses.
tionshipsbetweennutritionandimmunityofaquatic Shrimp as invertebrates are not able to develop a
animals and more speci¢cally of ¢sh and shrimp. speci¢c response. They have the basal mechanisms
r2010 TheAuthors
356 JournalCompilationr2010BlackwellPublishingLtd
AquacultureResearch, 2010, 41, 356^372 Nutritionandimmunity:anupdate VVerlhacTrichet
of self- versus non-self recognition, phagocytosis and tory response are interferon (IFN), interleukins (ILs),
a systemof lectins that can be considered to be anti- chemokines and factors like tumour-necrosis factor
body-likeproteins. (TNF-a). Pathogen-associated molecular patterns
The response of ¢sh to a foreign agent is rather (PAMP) of recognition have also been discovered as
similar to that of mammals, while in shrimp, the re- animportantelementof the innate immunity, invol-
sponse is very rudimentary. All ¢sh pathogens con- vingdi¡erentreceptortypes.
tain antigens: viral particles, bacteria, fungi, toxins The third line of defence consists of the develop-
andanimalparasites. ment of a speci¢c immune response with either the
proliferation of lymphocytes leading to the produc-
Distinctionbetweeninnateandspeci¢c tionof antibodies speci¢c to the antigenor the devel-
immunity opment of a T-cell-mediated response via cytotoxic
Tcells (e¡ectorcells) in case of viral infection, for ex-
Figure 1 presents the di¡erent mechanisms involved ample. These responses are generally also mediated
intheinnateandspeci¢c(oradaptive)immunity.Fish by cytokines, which play an important role in cell-
have an important ¢rst line of defence consisting of to-cell communication for a rapid expansion of the
epithelial barriers such as skin, scales, mucus mem- response to the di¡erent parts of the body. The ulti-
branes (gastro-intestinal tract, secretions of mucus) matestepofthisspeci¢cresponseisthedevelopment
and physiological barriers like stomach pH, gut mi- of a memory, allowing the immune system to main-
cro£ora and chemical mediators secreted by the mu- tainaB-cellpro¢lecorrespondingtoaspeci¢cpatho-
cus (defensins, lysozyme, transferrin, complement gen. In case of a second infection, these cells will be
system, etc.). Involvement of cells like phagocytes, recognizedandwillproliferatequicklyto¢ghtthein-
natural cytotoxic cells (NCC) and in£ammatory re- fection.This memory mechanism is muchless devel-
sponse through the release of chemical mediators oped in ¢sh compared with mammals and does not
represents a second line of defence that is initiated if exist in shrimp.
thepathogenhasbeenabletopasstheepithelialand In terms of kinetics of the responses, the innate
physiological barriers. The actors of the in£amma- immunity can act between hours and days, while
Infection
Innate immunity Adaptive immunity
Epithelial barriers
B lymphocytes -> Antibodies
Phagocytes
NC
Natural cytotoxic cells
Bacteria T lymphocytes -> Effector cells
Histamine
Phagocyte Memory
Inflammation: chemical mediators
Time after infection:
Hours to days Days to week
Figure1 Distinctionbetweeninnateandspeci¢cimmunity.AdaptedfromAbbas,LichtmannandPober(1999).
r2010 TheAuthors
JournalCompilationr2010BlackwellPublishingLtd, AquacultureResearch, 41,356^372 357
Nutritionandimmunity:anupdate VVerlhacTrichet AquacultureResearch, 2010, 41,356^372
the speci¢c immunity would need weeks to develop of virus-infected cells.Through a mechanismof per-
depending mainly on the environment (Bowden forin granules released externally, the membrane of
2008). the virus-infected cells will be degraded and subse-
quently subjected to an osmotic shock, leading to
theircompletelysisanddeath(Fig.3).
Cellularactorsof innate immunity
Phagocytes and NCC are the main cellular elements Humoralfactorsofinnateimmunity
of the innate immunity. As shown in Fig. 2, phago-
cytes are able to develop di¡erent microbicidal me- Interferon is also involved inanti-viral innate immu-
chanisms to try to de¢nitely eliminate pathogens. nity (Fig. 4). Following viral infection, type I IFN is
Enzymes, reactive oxygen species and nitric oxide released and recognized by speci¢c receptors on the
(NO) act in concert to provide the best chances to membrane of non-infected cells. The binding of IFN
limit the response to the second line of defences de- to membrane receptors initiates the secretion of en-
scribed earlier. The production of reactive oxygen zymeslikelysozyme, whichwillthenblocktherepli-
species, either internally or externally, constitutes cationofthevirusandwillinduceananti-viralstate.
the oxidative burst mechanism. The extracellular Thein£ammatoryresponseconsistsof therelease
response is more pronounced in ¢sh compared with of chemical mediators: histamine, prostaglandins
theintracellularone. (PG), complement and cytokines (IL1b,6,8,10,
Natural cytotoxic cells are involved in innate anti- 12, TNF-a). Interleukin1bhas been characterized in
viralimmunity.Naturalcytotoxiccellspossessrecep- teleost ¢sh (Randelli, Buonocore & Scapigliati 2008).
tors that recognize proteins expressed at the surface Interleukin 6 have been identi¢ed at the molecular
Extra-cellular killing of microbes
Microbes
Enzymes
ROS NO
Extra-cellular Extra-
cellular
Lysosome
Phagosome
NO
ROS O
Phagolysosome 2
O ROS
2
Intra-cellular killing of microbes
Figure 2 Microbicidalmechanismsofphagocytosis.AdaptedfromAbbasetal. (1999).
r2010 TheAuthors
358 JournalCompilationr2010BlackwellPublishingLtd, AquacultureResearch, 41,356^372
AquacultureResearch, 2010, 41, 356^372 Nutritionandimmunity:anupdate VVerlhacTrichet
NCC NCC
Virus-infected cell Lysis of virus-infected
Figure 3 Naturalcytotoxicitycells inanti-viral innate immunity. Adapted fromAbbas etal. (1999).
Type I IFN
IFN receptor
Virus-infected cell
IFN induces an anti-viral state:
blocking viral infection of cells
IFN induces an anti-viral state:
blocking viral replication
Figure 4 Interferoninanti-viralinnateimmunity.AdaptedfromAbbasetal.(1999).
level in sea bream by Castellana, Iliev, Sepulcre, leading to the recruitment and activation of phago-
MacKenzie,Goetz,MuleroandPlanas(2008). cytes but they also found implications of TNF-a in
Tumour necrosis factor-a is conserved in all ver- di¡erentaspectsascomparedwithmammalslikein-
tebrate classes and has been identi¢ed in teleost creasedsusceptibilitytoviralinfectionandincreased
¤ virus replication.
¢sh.Roca,Mulero,Lopez-munoz,Sepulcre,Renshaw,
MeseguerandMulero(2008)havedemonstratedthat All this workoncytokinesandchemokinesis still,
the main proin£ammatory e¡ects of ¢sh TNF-a are foragreatpart,carriedoutatthemolecularleveland
mediated through the activation of endothelial cells, thereforethereisaneedtodemonstratethebiological
r2010 TheAuthors
JournalCompilationr2010BlackwellPublishingLtd, AquacultureResearch, 41,356^372 359
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