Sight of a Predator Induces a Corticosterone Stress Response and Generates Fear in an Amphibian

Amphibians, like other animals, generate corticosterone or cortisol glucocorticoid responses to stimuli perceived to be threatening. It is generally assumed that the corticosterone response of animals to capture and handling reflects the corticosterone response to stimuli such as the sight of a predator that are thought to be natural stressors. Fijian ground frogs ( Platymantisvitiana ) are preyed upon by the introduced cane toads ( Rhinellamarina ), and we used ground frogs to test the hypothesis that the sight of a predator will induce a corticosterone stress response in an amphibian. Urinary corticosterone metabolite concentrations increased in male ground frogs exposed to the sight of a toad for 1, 3 or 6 h, whereas corticosterone did not change in frogs exposed to another male ground frog, a ball, or when no stimulus was present in the test compartment. The frogs exposed to a toad initially moved towards the stimulus then moved away, whereas frogs exposed to another frog moved towards the test frog and remained closer to the frog than at the start of the test. Tonic immobility (TI) was measured as an index of fearfulness immediately after the test exposure of the frogs to a stimulus. The duration of TI was longer in frogs exposed to a toad than to another frog or to a ball. The results provide novel evidence that the sight of a predator can induce a corticosterone response and lead to increased fearfulness in amphibians. In addition, they show that endemic frogs can recognise an introduced predator as a threat.     

Prevention of endotoxin-induced systemic response by bone marrow-derived mesenchymal stem cells in mice

Bone marrow-derived mesenchymal stem cells (BMDMSCs) appear to be important in repair of the chronic lung injury caused by bleomycin in mice. To determine effects of these BMDMSCs on an acute inflammatory response, we injected C57BL/6 mice intraperitoneally with 1 mg/kg endotoxin followed either by intravenous infusion of 5 x 10(5) BMDMSCs, the same number of lung fibroblasts, or an equal volume of normal saline solution. Lungs harvested 6, 24, and 48 h and 14 days after endotoxin showed that BMDMSC administration prevented endotoxin-induced lung inflammation, injury, and edema. Although we were able to detect donor cells in the lungs at 1 day after endotoxin, by 14 days no donor cells were detected. BMDMSC administration suppressed the endotoxin-induced increase in circulating proinflammatory cytokines without decreasing circulating levels of anti-inflammatory mediators. Ex vivo cocultures of BMDMSC and lung cells from endotoxemic animals demonstrated a bilateral conversation in which lung cells stimulated proliferation and migration of stem cells and suppressed proinflammatory cytokine production by lung cells. We conclude that BMDMSCs decrease both the systemic and local inflammatory responses induced by endotoxin. These effects do not require either lung engraftment or differentiation of the stem cells and are due at least in part to the production of stem cell chemoattractants by the lungs and to humoral and physical interactions between stem cells and lung cells. We speculate that mobilization of this population of BMDMSCs may be a general mechanism for modulating an acute inflammatory response.     

Parental Alarm Calls of the White‐Crowned Sparrow Fail to Stimulate Corticosterone Production in Nest‐Bound Offspring

Alarm calling by parents is widespread among animals and has strong implications for parent and offspring fitness, yet it is virtually unknown whether parental alarm calls can initiate a corticosterone response in offspring. We investigated whether parental alarm calls of the white‐crowned sparrow, Zonotrichia leucophrys, activated the corticosterone response of their nest‐bound young, as such a response might prepare older nestlings for premature fledging and increase their survival when contacted by a predator at the nest. We conducted an experiment in which nestlings were either exposed to parent alarm calls (treatment) or experienced a period without parental alarm calls (control) immediately prior to blood sampling. We then sampled nestlings to measure corticosterone levels within 4 min of first contact (baseline corticosterone) and 60 min later (handling‐induced corticosterone). Young nestlings (i.e. 3–4 d post‐hatch) did not exhibit a corticosterone response to parental alarm calls or to handling, as mean corticosterone levels were similar in the control and treatment groups for both baseline and 60‐min post‐baseline samples. Against our predictions, there was no difference in mean levels of baseline corticosterone between control and treatment groups in older nestlings (i.e. 7?8 d post‐hatch) that were capable of surviving out of the nest. However, we did find a significant increase in mean levels of corticosterone after handling in both groups, which indicated that older nestlings were able to mount a functional corticosterone response when confronted with a potential predator. Why older nestlings did not initiate a corticosterone response after exposure to parental alarm calls is unclear but may have occurred because the costs of mounting such a response outweighed the benefits, perhaps because of growth or developmental costs.     

Pre- and post-hatching effects of corticosterone treatment on behavior of the domestic chick

We investigated the effect of 60 ìg of corticosterone administered to domestic chicks either before or after hatching on the behavioral response to isolation in a novel arena and performance in a task involving the simultaneous identification of food and detection of a predator (overhead silhouette of a hawk moving overhead). Following release into a novel arena, chicks treated with corticosterone at 18 days of incubation emitted more distress vocalizations. In contrast, no difference in the number of vocalizations was found between chicks treated with corticosterone at day 1 post-hatching and controls. Behavior in the home cages was generally similar across treatments, though chicks treated with corticosterone at 18 days of incubation slept more than control chicks. While searching for grain against a background of pebbles, chicks treated with corticosterone at embryonic day 18, but not chicks treated on day 1 post-hatching, took longer to detect the overhead image of a predator than did controls. Corticosterone treatment at both ages increased the rate of pecking at grains and pebbles. Our findings support work on other birds indicating that corticosterone treatment during incubation influences stress reactivity. The impairment in predator detection in chicks treated with corticosterone on day 18 of incubation appears to be caused by the known effects of corticosterone treatment at this age in preventing the development of lateralization of the thalamofugal visual projections. This further supports the hypothesis that brain lateralization provides an advantage in performing more than one task simultaneously.     

Antioxidants protect cultured bovine lung endothelial cells from injury by endotoxin

Endotoxin injures bovine pulmonary endothelial cells in culture but the cytotoxicity is unaffected by a host of antiinflammatory drugs. We hypothesized that agents which could decrease intracellular concentrations of toxic metabolites of O2 would prevent endotoxin effects on cultured pulmonary artery endothelial cells. We measured endotoxin-induced release of lactate dehydrogenase (LDH) from and production of prostanoids by cultured bovine pulmonary endothelial cells in the presence and absence of dimethyl sulfoxide (DMSO) and the xanthine oxidase inhibitor allopurinol. Escherichia coli endotoxin (0.001-10 micrograms/ml) caused a dose-related release of LDH and stimulated production of both prostacyclin [measured as 6-ketoprostaglandin F1 alpha (6-keto-PGF1 alpha)] and prostaglandin E2 (PGE2). Both DMSO and allopurinol decreased endotoxin-induced LDH release; this effect was related to concentration of the drugs (0-2% for DMSO and 0-0.3 mg/ml for allopurinol). Both drugs also prevented endotoxin-induced changes in endothelial morphology. Endotoxin increased intracellular reduction of the redox dye nitro blue tetrazolium, caused intracellular oxidation of 2',7'-dichlorofluorescein diacetate and caused release of conjugated dienes from endothelial cells; both DMSO and allopurinol inhibited those responses. DMSO, but not allopurinol, prevented endotoxin-induced production of prostacyclin and PGE2 by endothelium. Direct injury of pulmonary endothelium by endotoxin is inhibited by two chemically dissimilar drugs which have a common potential for decreasing intracellular concentrations of toxic metabolites of O2; indirect evidence suggests that potential as a mechanism for the protective effects of the drugs.     

CRF-dependent and CRF-independent mechanisms involved in hypophysial-adrenal system activation by bacterial endotoxin.

The immune system and the hypothalamic-pituitary-adrenal (HPA) axis play important role in the overall inflammatory response. The mechanism through which lipopolysaccharide (LPS, endotoxin) stimulates the HPA axis is not well understood. In order to clarify the role of hypophysiotropic peptides of paraventricular origin in the effect of LPS on ACTH and corticosterone secretion, the effect of LPS was studied on rats with lesions of hypothalamic paraventricular nucleus (PVN). It was shown that 90 min after 2 mg/kg LPS i.p. the ACTH, but not the corticosterone response was effectively blunted in PVN-lesioned rats, as compared to sham operated animals. However, in PVN-lesioned rats 240 min after treatment with LPS a significantly higher plasma ACTH and corticosterone level was monitored. It is, therefore, suggested that in response to LPS activation of HPA both CRF(s)-dependent and CRF(s)-independent mechanisms are involved, even a direct effect of the adrenal cortex should be taken into account.     

Zingerone Suppresses Liver Inflammation Induced by Antibiotic Mediated Endotoxemia through Down Regulating Hepatic mRNA Expression of Inflammatory Markers in Pseudomonas aeruginosa Peritonitis Mouse Model

Antibiotic-induced endotoxin release is associated with high mortality rate even when appropriate antibiotics are used for the treatment of severe infections in intensive care units. Since liver is involved in systemic clearance and detoxification of endotoxin hence it becomes a primary target organ for endotoxin mediated inflammation. Currently available anti-inflammatory drugs give rise to serious side effects. Hence, there is an urgent need for safe and effective anti-inflammatory therapy. It is likely that anti-inflammatory phytochemicals and neutraceutical agents may have the potential to reduce the endotoxin mediated inflammation and complications associated with endotoxin release. Keeping this in mind, the present study was planned to evaluate the hepatoprotective potential of zingerone (active compound of zingiber officinale) against liver inflammation induced by antibiotic mediated endotoxemia. The selected antibiotics capable of releasing high content of endotoxin were employed for their in vivo efficacy in P.aeruginosa peritonitis model. Released endotoxin induced inflammation and zingerone as co-anti-inflammatory therapy significantly reduced inflammatory response. Improved liver histology and reduced inflammatory markers MDA, RNI, MPO, tissue damage markers (AST, ALT, ALP) and inflammatory cytokines (MIP-2, IL-6 and TNF-α) were indicative of therapeutic potential of zingerone. The mechanism of action of zingerone may be related to significant inhibition of the mRNA expression of inflammatory markers (TLR4, RelA, NF-kB2, TNF- α, iNOS, COX-2) indicating that zingerone interferes with cell signalling pathway and suppresses hyper expression of cell signaling molecules of inflammatory pathway. Zingerone therapy significantly protected liver from endotoxin induced inflammatory damage by down regulating biochemical as well as molecular markers of inflammation. In conclusion, this study provides evidence that zingerone is a potent anti-inflammatory phytomedicine against hepatic inflammation induced by antibiotic mediated endotoxemia. These results thus suggest that zingerone treatment can be used as a co-therapy with antibiotics to reduced endotoxin induced inflammation during treatment of severe P.aeruginosa infections.     

Do dietary antioxidants alleviate the cost of immune activation? An experiment with greenfinches

Reactive oxygen and nitrogen species produced by metabolism and immune defenses can cause extensive damage to biomolecules. To counteract this damage, organisms rely on exogenous and endogenous antioxidants, although their relative importance in maintaining redox balance is unclear. We supplemented captive greenfinches with dietary antioxidants--carotenoids and vitamin E--and injected them with an inflammatory agent, phytohemagglutinin. Compared to controls, immune-challenged birds circulated more lipid peroxidation products but also increased total plasma antioxidativity. Carotenoid (but not vitamin E) supplementation generally reduced lipid peroxidation, but this did not compensate for the effects of immune activation. Levels of an endogenous antioxidant--uric acid--strongly contributed to plasma antioxidativity. We found no evidence that dietary antioxidants are immunostimulatory. These results demonstrate the antioxidant function of carotenoids in birds and show that simultaneous assessment of oxidative stress-driven damage, antioxidant barrier, and individual antioxidants is critical for explaining the potential costs of immune system activation.     

The effect of the glucocorticoid Oradexon on endotoxin-induced peritoneal cell response

Glucocorticoids are important modulators of immune reactions. They are capable of antagonising several effects of the bacterial endotoxin by inhibiting endotoxin-induced leukocyte activation, and the production of cytokines and inflammatory mediators. We earlier demonstrated that the antiglucocorticoid RU 38486 enhances the cytokine production induced by endotoxin and aggravates the course of experimental endotoxic and septic shock. In the present study we investigated the effect of the glucocorticoid Oradexon on the endotoxin-induced peritoneal cell response. For measurement of the peritoneal cell response, male CFLP mice (20-25 g) were injected i.p. with 10 microg/10 g body weight endotoxin (E. coli 026:B6 LPS, Difco Lab, Detroit, lot 110273JB). Dexamethasone (Oradexon, N.V, Organon Oss, The Netherlands) was administered i.p., i.v. or s.c. in a dose of 0.1 mg/10 g body weight, alone or concomitantly with endotoxin. We found that bacterial endotoxin increased the total cell count due to neutrophilia at 24 hours and, due to increases in the number of macrophages and lymphocytes 48 and 72 hours after treatment, respectively. The i.p., i.v., and s.c. injection of Oradexon, increased the total cell count and the macrophage count at 24, 48 and 72 hours. The i.p., s.c. and i.v. injection of Oradexon, concomitantly with endotoxin, reduced the total cell count at 48 and 72 hours, due to decreases in the macrophage count. The i.p., i.v. or s.c. administration of Oradexon concomitantly with LPS decreased the lymphocyte count and the neutrophil count at 24 and 72 hours. These results prove that glucocorticoids are capable of modifying the immune cell reactions induced by endotoxin.     

Endotoxin Induced Chorioamnionitis Prevents Intestinal Development during Gestation in Fetal Sheep

Chorioamnionitis is the most significant source of prenatal inflammation and preterm delivery. Prematurity and prenatal inflammation are associated with compromised postnatal developmental outcomes, of the intestinal immune defence, gut barrier function and the vascular system. We developed a sheep model to study how the antenatal development of the gut was affected by gestation and/or by endotoxin induced chorioamnionitis.Chorioamnionitis was induced at different gestational ages (GA). Animals were sacrificed at low GA after 2d or 14d exposure to chorioamnionitis. Long term effects of 30d exposure to chorioamnionitis were studied in near term animals after induction of chorioamnionitis. The cellular distribution of tight junction protein ZO-1 was shown to be underdeveloped at low GA whereas endotoxin induced chorioamnionitis prevented the maturation of tight junctions during later gestation. Endotoxin induced chorioamnionitis did not induce an early (2d) inflammatory response in the gut in preterm animals. However, 14d after endotoxin administration preterm animals had increased numbers of T-lymphocytes, myeloperoxidase-positive cells and gammadelta T-cells which lasted till 30d after induction of chorioamnionitis in then near term animals. At early GA, low intestinal TLR-4 and MD-2 mRNA levels were detected which were further down regulated during endotoxin-induced chorioamnionitis. Predisposition to organ injury by ischemia was assessed by the vascular function of third-generation mesenteric arteries. Endotoxin-exposed animals of low GA had increased contractile response to the thromboxane A2 mimetic U46619 and reduced endothelium-dependent relaxation in responses to acetylcholine. The administration of a nitric oxide (NO) donor completely restored endothelial dysfunction suggesting reduced NO bioavailability which was not due to low expression of endothelial nitric oxide synthase.Our results indicate that the distribution of the tight junctional protein ZO-1, the immune defence and vascular function are immature at low GA and are further compromised by endotoxin-induced chorioamnionitis. This study suggests that both prematurity and inflammation in utero disturb fetal gut development, potentially predisposing to postnatal intestinal pathology.     

Stress-induced ACTH release after removal of the hypothalamus in rats with atrophied neural lobe.

Twenty-four hours after isolation of the pituitary by surgical removal of the medial hypothalamus, i.e. in rats with pituitary island, E. coli endotoxin significantly increased the plasma corticosterone level. Atrophy of the neural lobe, due to pituitary stalk section performed one month prior to removal of the medial hypothalamus, did not prevent the increase of ACTH release by E. coli endotoxin. E. coli endotoxin-induced ACTH release in MBH-deprived animals does not appear to be a function of mechanisms operating only in the innervated lobe.     

Leptin selectively augments thymopoiesis in leptin deficiency and lipopolysaccharide-induced thymic atrophy

The thymus is a lymphoid organ that selects T cells for release to the peripheral immune system. Unfortunately, thymopoiesis is highly susceptible to damage by physiologic stressors and can contribute to immune deficiencies that occur in a variety of clinical settings. No treatment is currently available to protect the thymus from stress-induced involution. Leptin-deficient (ob/ob) mice have severe thymic atrophy and this finding suggests that this hormone is required for normal thymopoiesis. In this study, the ability of leptin to promote thymopoiesis in wild-type C57BL/6 and BALB/c mice, as well as in leptin-deficient (ob/ob) and endotoxin-stressed (Escherichia coli LPS) mice, was determined. Leptin administration induced weight loss and stimulated thymopoiesis in ob/ob mice, but did not stimulate thymopoiesis in wild-type C57BL/6 nor BALB/c mice. In endotoxin-stressed mice, however, leptin prevented LPS-induced thymus weight loss and stimulated TCRalpha gene rearrangement. Coadministration of leptin with LPS blunted endotoxin-induced systemic corticosterone response and production of proinflammatory cytokines. Thus, leptin has a selective thymostimulatory role in settings of leptin deficiency and endotoxin administration, and may be useful for protecting the thymus from damage and augmenting T cell reconstitution in these clinical states.     

Endotoxin Induces Fibrosis in Vascular Endothelial Cells through a Mechanism Dependent on Transient Receptor Protein Melastatin 7 Activity

The pathogenesis of systemic inflammatory diseases, including endotoxemia-derived sepsis syndrome, is characterized by endothelial dysfunction. It has been demonstrated that the endotoxin lipopolysaccharide (LPS) induces the conversion of endothelial cells (ECs) into activated fibroblasts through endothelial­to­mesenchymal transition mechanism. Fibrogenesis is highly dependent on intracellular Ca²⁺ concentration increases through the participation of calcium channels. However, the specific molecular identity of the calcium channel that mediates the Ca²⁺ influx during endotoxin-induced endothelial fibrosis is still unknown. Transient receptor potential melastatin 7 (TRPM7) is a calcium channel that is expressed in many cell types, including ECs. TRPM7 is involved in a number of crucial processes such as the conversion of fibroblasts into activated fibroblasts, or myofibroblasts, being responsible for the development of several characteristics of them. However, the role of the TRPM7 ion channel in endotoxin-induced endothelial fibrosis is unknown. Thus, our aim was to study whether the TRPM7 calcium channel participates in endotoxin-induced endothelial fibrosis. Using primary cultures of ECs, we demonstrated that TRPM7 is a crucial protein involved in endotoxin-induced endothelial fibrosis. Suppression of TRPM7 expression protected ECs from the fibrogenic process stimulated by endotoxin. Downregulation of TRPM7 prevented the endotoxin-induced endothelial markers decrease and fibrotic genes increase in ECs. In addition, TRPM7 downregulation abolished the endotoxin-induced increase in ECM proteins in ECs. Furthermore, we showed that intracellular Ca²⁺ levels were greatly increased upon LPS challenge in a mechanism dependent on TRPM7 expression. These results demonstrate that TRPM7 is a key protein involved in the mechanism underlying endotoxin-induced endothelial fibrosis.     

Differential effects of caspase inhibitors on endotoxin-induced myocardial dysfunction and heart apoptosis

Endotoxin is one of the major factors causing myocardial depression and death during sepsis in humans. Recently, it was reported that endotoxin may induce cardiomyocyte apoptosis. Also, multiple caspase activation has been implicated in endotoxin-induced apoptosis in several organ systems. In this study, we investigated whether endotoxin would increase myocardial caspase activities and evaluated the effects of in vivo administration (3 mg/kg) of the broad-spectrum caspase inhibitor benzyloxycarbonyl-Val-Ala-Asp-fluoromethylketone(z-VAD.fmk), the caspase-3-like inhibitor benzyloxycarbonyl-Asp-Glu-Val-Asp-chloromethylketone (z-DEVD.cmk), and the caspase-1-like inhibitor acetyl-Tyr-Val-Ala-Asp-chloromethylketone (Ac-YVAD. fmk), on endotoxin-induced myocardial dysfunction and apoptosis. Endotoxin administration (10 mg/kg iv) induced myocardial contractile dysfunction that was associated with caspase activity increases and nuclear apoptosis. Broad-spectrum z-VAD.fmk and z-DEVD.cmk improved endotoxin-induced myocardial dysfunction and reduced caspase activation and nuclear apoptosis when given immediately and 2 h after endotoxin. In contrast, no effects of Ac-YVAD.fmk were observed on myocardial function and caspase-induced apoptosis. Administration of caspase inhibitors 4 h after endotoxin treatment was not able to protect the rat heart from myocardial dysfunction and nuclear apoptosis. These observations provide evidence that in our model, caspase activation plays a role in endotoxin-induced myocardial apoptosis. Caspase inhibition strategy may represent a therapeutic approach to endotoxin-induced myocardial dysfunction.     

Effect of Escherichia coli endotoxin on adenine nucleotide translocation in canine heart mitochondria

The in vitro effect of Escherichia coli endotoxin on the translocation of adenine nucleotides in dog heart mitochondria was studied. Mitochondrial adenine nucleotides were labeled with ¹⁴C by incubating mitochondrial preparations in the presence of [¹⁴C]ADP. The exchange reaction was initiated by addition of unlabeled ADP, proceeded for 5 to 60 s at 4 °C, and was terminated by addition of atractyloside. The results showed that preincubation of mitochondria with endotoxin (50 μg/mg protein) for 10 min at 23 °C decreased the exchange reaction by 21.2% (P < 0.05). The inhibitory effect of endotoxin was increased with increasing concentrations of endotoxin with an I₅₀ value of 45 μg/mg protein. The initial rate and the total extent of exchange were both affected. Double reciprocal plots showed that only the V but not the K_m for ADP was affected by endotoxin, indicating that the inhibition was noncompetitive in nature. The exchange of adenine nucleotide remained depressed by endotoxin in the presence of either oligomycin or antimycin A, indicating that the inhibitory effect of endotoxin was independent of the action of endotoxin on oxidative phosphorylation. The leakage of labeled adenine nucleotides from mitochondria at 23 °C was increased by 100% by endotoxin (100 μg/mg protein) in the absence of added unlabeled ADP, and this increase in the leakage could not be blocked by atractyloside. The endotoxin-induced changes in adenine nucleotide exchange and leakage were either partially or completely prevented by hydrocortisone, heparin, dibucaine, or EDTA. Since most of these agents have in common an effect on lipid metabolism, it is suggested that endotoxin-induced alterations in the exchange and leakage of adenine nucleotides in heart mitochondria are protected through a mechanism involving membrane lipid reorganization.     

Endotoxin causes neutrophil-independent oxidative stress in rats

Endotoxin-induced oxidative stress is investigated in rats by measuring changes in plasma and lung tissue levels of glutathione disulfide (GSSG) using a modified enzymatic assay that allows simultaneous measurement of up to 80 samples. Salmonella enteritidis endotoxin (2 and 20 mg/kg) acutely increased both plasma reduced glutathione and GSSG with a rise in the ratio of GSSG to total glutathione. This increase in GSSG was enhanced by pretreatment with 1,3-bis(2-chloroethyl)1-nitrosourea (BCNU), an inhibitor of the glutathione reductase enzyme. However, there was no significant arteriovenous difference in plasma GSSG across the lung, and lung tissue GSSG did not increase after endotoxin treatment. The increase in plasma GSSG was not blocked by vinblastine-induced neutropenia and could not be reproduced by incubating rat blood in vitro with endotoxin. Receptor antagonists of platelet-activating factor (PAF), at a dose that previously inhibited endotoxin-induced lung injury, attenuated the endotoxin-induced increase in plasma GSSG. We conclude that endotoxin causes neutrophil-independent oxidative stress in rats, which may be enhanced by the action of platelet-activating factor.     

Leucocyte profiles and corticosterone in chicks of southern rockhopper penguins

The immune system is essential for health and survival of vertebrates, yet still little is known about the ontogeny of the immune system in wild birds. The southern rockhopper penguin (Eudyptes chrysocome chrysocome) is a semi-altricial seabird with a long developmental period and reversed hatching asynchrony, favouring the survival of B-chicks. We compared leucocyte counts and baseline corticosterone levels of southern rockhopper penguin chicks under different preconditions such as sex and origin from an A- or B-egg from 4 to 51 days of age. We conducted an experiment to compare leucocyte profiles and baseline corticosterone levels in A- and B-chicks in single-egg clutches as well as in B-chicks from normal two egg-clutches (one A- and one B-egg). None of these treatments influenced leucocyte counts or corticosterone levels, indicating a similar investment in the immune system. Our main finding was an increase of leucocytes/10,000 erythrocytes with age, which was mainly caused by an increase in lymphocyte numbers. This suggests differential investment into acquired immunity at this stage of development. As the granulocyte/lymphocyte (G/L) ratio did not change with age or body condition, G/L ratios seem not to reflect stress caused by poor provisioning of penguin chicks. This was also reinforced by the decrease of plasma corticosterone levels with age. Body condition was negatively correlated with monocyte numbers, suggesting a poorer health status of penguin chicks in poorer body condition. Yet, there was no link between body condition and other leucocyte parameters, indicating that chicks in a good body condition did not additionally invest into their immune system.