A behavioral augmentation of natural immunity: odor specificity supports a Pavlovian conditioning model.

BALB/c mice were conditioned by pairing an odor to an injection of poly-inosinic:poly-cytidylic acid (poly I:C), a strong inducer of natural killer (NK) cell activity as the unconditioned stimulus (US). When later reexposed to the odor conditioning stimulus (CS), these mice showed a conditioned augmentation of the NK cell response to a suboptimal dose of 1 microgram poly I:C. The two stimuli used in these studies were camphor (Ca) and citronella oil (Cr) odors, two chemically-related but distinct odor stimuli. The conditioned mice demonstrated the ability to discriminate between Ca and Cr, such that the conditioned response (CR) was only elicited by the odor CS used in the formation of the conditioned association. Exposure of conditioned mice to the non-associated odor stimulus on the test day did not elicit a change in the NK cell response to the suboptimal dose of poly I:C when compared to mice in the US group that had been given the US on day 0 without pairing to either odor stimulus. This specificity of the CR for the odor CS and not the unassociated odor stimulus supports the interpretation that the elevation of NK cell activity in this paradigm is due to Pavlovian conditioning and therefore dependent on central nervous system (CNS) associative processes.

[1]  R N Hiramoto,et al.  Conditioned enhancement of natural killer cell activity, but not interferon, with camphor or saccharin‐Licl conditioned stimulus , 1987, Journal of neuroscience research.

[2]  H. Besedovsky,et al.  Neuroendocrine and metabolic responses induced by Interleukin‐1 , 1987, Journal of neuroscience research.

[3]  N. H. Spector,et al.  Influence of Conditioned Natural Immunity on Tumor Growth a , 1987, Annals of the New York Academy of Sciences.

[4]  A. Greenberg,et al.  Tolerance to drug-induced (poly I:C) natural killer cell activation: congruence with a Pavlovian conditioning model. , 1986, Journal of experimental psychology. Animal behavior processes.

[5]  T. Strom,et al.  Behaviorally conditioned immunosuppression: replication of a recent study. , 1976, Psychosomatic medicine.

[6]  Y. Watanabe,et al.  Antigenicity of mouse interferons induced in vitro and in vivo by poly(I).poly(C). , 1984, Journal of interferon research.

[7]  Pollack Sb,et al.  Antibody responses and regulation. A role for natural killer cells. , 1986 .

[8]  M. Kennedy,et al.  Factors Involved in the Classical Conditioning of Antibody Responses in Mice , 1984 .

[9]  R. Brown,et al.  Behaviourally conditioned modification of T cell subset ratios in rats. , 1987, Immunology letters.

[10]  R. Burton,et al.  Definitive evidence that natural killer (NK) cells inhibit experimental tumor metastases in vivo. , 1981, Journal of immunology.

[11]  H. Solvason,et al.  Regulation of Natural Immunity (NK Activity) by Conditioning a , 1987, Annals of the New York Academy of Sciences.

[12]  T. Roszman,et al.  Some parameters of conditioned immunosuppression: Species difference and CS-US delay , 1986, Physiology & Behavior.

[13]  G. Ellman,et al.  Prior stress and behaviorally conditioned histamine release , 1987, Physiology & Behavior.

[14]  H. Solvason,et al.  Conditioning: a new approach to immunotherapy. , 1990, Cancer research.

[15]  Behaviorally Conditioned Immunosuppression , 1974 .

[16]  B. J. Winer Statistical Principles in Experimental Design , 1992 .

[17]  R. Welsh,et al.  Adoptive transfer studies demonstrating the antiviral effect of natural killer cells in vivo , 1985, The Journal of experimental medicine.

[18]  T. Merigan,et al.  Natural killing in estrogen-treated mice responds poorly to poly I.C despite normal stimulation of circulating interferon. , 1979, Journal of immunology.

[19]  R. Ader,et al.  Conditioned responses are indeed conditioned , 1986, Behavioral and Brain Sciences.

[20]  R. Dantzer,et al.  Is conditioned immunosuppression truly conditioned? , 1986, Behavioral and Brain Sciences.

[21]  R. Dantzer,et al.  Conditioned taste aversion suppresses induction of delayed-type hypersensitivity immune reactions , 1985, Physiology & Behavior.

[22]  R. Ader,et al.  Acquisition and extinction of conditioned suppression of a graft-vs-host response in the rat. , 1984, Journal of immunology.

[23]  J. Exon,et al.  Cyclophosphamide-conditioned suppression of the natural killer cell response in rats , 1986, Physiology & Behavior.

[24]  G. Solomon Psychoneuroimmunology: Interactions between central nervous system and immune system , 1987, Journal of neuroscience research.

[25]  Z. Grossman,et al.  'Immune surveillance' without immunogenicity. , 1986, Immunology today.

[26]  R. Ader,et al.  CNS–immune system interactions: Conditioning phenomena , 1985, Behavioral and Brain Sciences.

[27]  Conditioned compensatory responses elicited by environmental signals for cyclophosphamide-induced suppression of antibody production in mice , 1988, Psychobiology.

[28]  E. M. Smith,et al.  A complete regulatory loop between the immune and neuroendocrine systems. , 1985, Federation proceedings.

[29]  R. Rescorla Pavlovian conditioning and its proper control procedures. , 1967, Psychological review.

[30]  A. Husband,et al.  Behaviorally conditioned suppression of the immune response by antilymphocyte serum. , 1983, Journal of immunology.

[31]  M. Kennedy,et al.  Conditioned immune response associated with allogeneic skin grafts in mice. , 1982, Journal of immunology.

[32]  J. Ortaldo,et al.  Natural killer cells: their roles in defenses against disease. , 1981, Science.

[33]  I. Gresser,et al.  Enhanced NK cell activity in mice injected with interferon and interferon inducers , 1978, Nature.

[34]  B. Rabin,et al.  Acquisition of radiation- and lithium chloride-induced conditioned taste aversions in anesthetized rats , 1984 .

[35]  J. Talmadge,et al.  Role of organ-associated NK cells in decreased formation of experimental metastases in lung and liver. , 1985, Journal of immunology.

[36]  E. Wayner,et al.  Effects of taste aversion conditioning on the primary antibody response to sheep red blood cells and Brucella abortus in the albino rat , 1978, Physiology & Behavior.

[37]  J. Blalock,et al.  Interactions between the Neuroendocrine and Immune Systems: Common Hormones and Receptors , 1987, Immunological reviews.

[38]  H. Solvason,et al.  Conditioned augmentation of natural killer cell activity. Independence from nociceptive effects and dependence on interferon-beta. , 1988, Journal of immunology.

[39]  M. Hansson,et al.  Human fetal thymus and bone marrow contain target cells for natural killer cells , 1981, European journal of immunology.

[40]  J. Djeu,et al.  Augmentation of mouse natural killer cell activity by interferon and interferon inducers. , 1979, Journal of immunology.