Meningitis por Listeria monocytogenes en niñas inmunocompetentes: queso no pasteurizado como probable causa de infección

Valdivia Tapia, María del C., Pinelo Chumbe, Elizabeth, Carreazo, Nilton Yhuri

30 September 2015

Listeria meningoencephalitis is a rare condition, occurring mainly in immunocompromised patients. We present two cases of Listeria monocytogenes meningoencephalitis in immunocompetent children, with successful treatment with betalactam/aminoglycoside combination. Unpasteurized cheese was postulated as the source of infection.

Meningitis

Listeria

Immunocompetence,

Cheese

Food microbiology

Population bottlenecks and the risk of parasitic and microbiological infections in the endangered saddleback (Philesturnus carunculatus) and South Island robin (Petroica a. australis)

Hale, Katrina Anne

January 2007

Severe population bottlenecks and the small size of many remnant habitats may render many bird populations prone to extinction from disease outbreaks. Bottlenecks may increase inbreeding which in turn may result in a low diversity of resistance and an immune system that is impaired or defective. Thus, bottlenecked populations may be less immunocompetent and more vulnerable to microbiological and parasitic perturbations. Few studies have assessed the effect of bottlenecks on the immunocompetence of birds. In this study, I used twelve saddleback (Philesturnus carunculatus) and two New Zealand robin (Petroica a. australis) populations, to determine if the severe bottlenecks reduce the immunocompetence of birds. When I experimentally challenged the immune system of two robin populations I found that despite the two populations having similar parasite loads, robins from the severely bottlenecked Motuara Island population exhibited a significantly lower T-cell mediated immune response than the source population (Nukuwaiata Island) suggesting that birds passing through severe population bottlenecks have a compromised immunocompetence. In the saddleback, severe bottlenecks, as well as high population densities and small island size, lead to individuals exhibiting higher stress levels and feather mite loads and lower immune function, as was evident by lower lymphocyte counts. I did not find levels of fluctuating asymmetry of saddlebacks to be directly influenced by bottleneck size. However, I did find that individuals with higher levels of fluctuating asymmetry had higher loads of hippoboscid flies and lower loads of coccidia suggesting a possible trade-off between growth and immune function. In contrast to previous studies looking at behavioural secondary sexual traits, I found no effect of founder number on the size of wattles in saddleback. I did however demonstrate that wattle size reflected the level of immune function in females as well as males, suggesting that females play a far greater role in offspring fitness than has been appreciated in traditional theories of sexual selection. Overall, my results indicate that severe bottlenecks can lead to reductions in immunocompetence in the resulting populations, especially in those populations that pass through the most severe bottlenecks. Based on the evidence from my thesis, I recommend conservation managers should aim to use at least 90 individuals to found new populations in order to reduce the deleterious effects of bottlenecks on immune function. If the costs of population bottlenecks and inbreeding are to be avoided, conservationists must adequately address the role of genetic factors in susceptibility to disease, and work towards minimising the risk of severe population bottlenecks in the management of endangered birds

immunocompetence

population bottlenecks

Philesturnus carunculatus

Petroica a. australis

disease

parasites

The effect of population bottleneck size on parasitic load and immunocompetence of introduced birds in New Zealand

Allen, Sophy Elizabeth

January 2008

I investigated parasitic infection and immunocompetence in populations of introduced bird species in New Zealand (NZ) that had experienced a range of population bottlenecks (11-808 individuals), and compared these parameters to non-bottlenecked conspecifics in the United Kingdom (UK). My aims were two-fold; firstly to assess if population bottlenecks are linked to increased parasite loads and/or decreased immunocompetence, and secondly, to assess at what severity of bottleneck these effects become evident. I found that ectoparasite load (chewing lice, Order: Phthiraptera, Sub-Orders: Amblycera & Ischnocera) was significantly higher in the more severely bottlenecked species in NZ than in the UK, whilst this difference became non-significant at more moderate bottlenecks. The difference was mainly driven by the Sub-Order Amblycera. The prevalence of avian malaria (Plasmodium spp.) was significantly negatively correlated to bottleneck size within NZ, after controlling for body mass. Total leucocyte and differential lymphocyte counts were elevated in the less bottlenecked species that were infected with malaria, whilst the populations at the more severe end of the bottleneck spectrum did not exhibit such a response. Furthermore, heterophil/lymphocyte (HL) ratio (a parameter used as an indicator of environmental and/or immunological stress), was significantly raised in the more bottlenecked species when compared to their UK counterparts, and this difference was correlated with the size of the bottleneck. Immunocompetence was further assessed by the experimental challenge of six introduced birds species in NZ with the mitogen phytohaemagglutinin (PHA). Immune response to PHA was significantly correlated to bottleneck size, but in the opposite direction to that predicted; immune response was greater in the more bottlenecked species. However, this may be an indication of increased investment in immunity, due to increased parasite and pathogen pressure or differential investment in varying components of the immune system. Finally, the immune response to PHA was compared in nestlings of two species that had experienced very different bottlenecks (70 vs. 653). After controlling for ectoparasitic infestation, I found no difference between the two species; however, this finding may be confounded by interspecific competition. Overall, my findings suggest that more severe population bottlenecks may result in increased susceptibility to pathogens, and impact on the immune system. This has a number of implications for the development of conservation protocols, and future avenues of research are suggested.

population bottleneck

introduced birds

immunocompetence

avian malaria

parasites.

Modulação dos níveis plasmáticos de corticosterona e imunocompetência em resposta ao tratamento exógeno com ACTH em Hypsiboas faber / Modulation of plasma corticosterone levels and immunocompetence in response to exogenous treatment with ACTH Hypsiboas faber

Barsotti, Adriana Maria Giorgi

15 December 2014

Em resposta a diversos estressores, o hipotálamo de anfíbios secreta o hormônio liberador de corticotropina (CRH), o qual estimula a hipófise a liberar o hormônio adrenocorticoctrópico (ACTH) na corrente sanguínea. O ACTH, por sua vez, atua na glândula inter-renal estimulando a liberação de glicocorticoides, sendo a corticosterona o principal glicocorticoide em anfíbios. Embora a modulação exercida pelos glicocorticoides de diversas respostas fisiológicas de estresse seja fundamental para a manutenção da homeostase em curto prazo, a ativação muito frequente e/ou prolongada do eixo hipotálamo-hipófise-interrenais (HHI) pode inibir processos importantes em longo prazo, tais como a reprodução e a imunocompetência e afetar a síntese de melatonina atuando diretamente sobre a pineal. O objetivo do presente estudo foi avaliar possíveis alterações nos níveis plasmáticos de corticosterona, testosterona, níveis oculares de melatonina, hematócrito e aspectos imunitários (contagem total de leucócitos e capacidade antimicrobiana plasmática - contra Escherichia coli) de machos da perereca Hypsiboas faber em resposta à injeção de ACTH, bem como o curso temporal destas respostas. Amostras de sangue e plasma foram obtidas a partir de 30 machos capturados em campo, dentro de 3 minutos da captura. Os animais foram trazidos para o laboratório e, após dois meses, divididos em seis grupos para serem amostrados em três horários distintos 1 h, 3h e 6h após o tratamento. Para cada horário um grupo controle e um grupo experimental foram adicionados, recebendo uma injeção de 105 μL de solução salina ou de solução de ACTH (0,446 μg de ACTH/g de massa corpórea (grupo experimental)). O tratamento com ACTH aumentou significativamente os níveis plasmáticos de corticosterona e diminuiu os níveis plasmáticos de testosterona bem como os níveis oculares de melatonina após 1 hora. Após 6 h da injeção de ACTH, houve um aumento da porcentagem do hematócrito e dos níveis de melatonina ocular. O tratamento com ACTH não afetou os aspectos imunitários estudados dentro do intervalo amostrado. Os resultados confirmam o papel da ativação do eixo HHI na inibição da secreção de testosterona e na modulação da secreção de melatonina, embora os possíveis efeitos imunomodulatórios possam se dar em intervalos temporais mais tardios / In response for several stressors, the amphibian hypothalamus release the corticotrophin release hormone (CRH), which stimulates pituitary to release the adenocorticotropic hormone (ACTH) in the bloodstream. The ACTH, in your turn, acts in inter renal glands stimulating the glicocorticoids releasing, being the corticosterone the main glicocorticoid in anphibians. While the modulation exercised by the glicocorticoids of diverses physiological responses of the stress is fundamental for de maintainance of homeostasis in short period, the frequent and/or prolongued activation of the hypothamlamus pituitary interenal axis (HHI) could inhibit important process in long periods, as the reproduction and immunocompetence and affect melatonin synthesis acting directly in pineal gland. The objective of the present study was evaluate possible alterations in plasmatic corticosterone levels, testosterone, eyes melatonin levels, hematocrit and immunity aspects (Total count leucocytes and antimicrobian plasmatic capacity - against Escherichia coli) from males of the treefrog Hypsiboas faber in response to ACTH injection, as well, the temporal course of these responses. Blood and plasma samples were obtained from the 30 males captured in the field, whitin 3 minutes from the capture. The animals were transferred to the laboratory and, after two months, divided in six groups to be sampled in three different times 1 h, 3 h and 6 h after treatment. For each time one control group and one experimental group were added, receiving one injection of 105 μL of saline or ACTH solution (0,446 μg de ACTH/g of body mass (experimental group)). The ACTH treatment increase significantly the plasmatic corticosterone levels and decrease the plasmatic testosterone levels, as well, the eye melatonin levels after one hour. After six hours of the ACTH injection, occurred the increase of the hematocrit percentage and the eye melatonin levels. The ACTH treatment did not affect the immunity aspects studied in the sampling interval. The results confirm the role of the activation on the axis HHI in the inhibition of the testosterone secretion and in the modulation of melatonin secretion, althougth the possible immunomodutatory effects could happen in temporal intervals later

Corticosterona

Corticosterone

Estresse

Immunocompetence

Imunocompetência

Melatonin

Melatonina

Stress

Testosterona

Testosterone

Modulação dos níveis plasmáticos de corticosterona e imunocompetência em resposta ao tratamento exógeno com ACTH em Hypsiboas faber / Modulation of plasma corticosterone levels and immunocompetence in response to exogenous treatment with ACTH Hypsiboas faber

Adriana Maria Giorgi Barsotti

15 December 2014

Em resposta a diversos estressores, o hipotálamo de anfíbios secreta o hormônio liberador de corticotropina (CRH), o qual estimula a hipófise a liberar o hormônio adrenocorticoctrópico (ACTH) na corrente sanguínea. O ACTH, por sua vez, atua na glândula inter-renal estimulando a liberação de glicocorticoides, sendo a corticosterona o principal glicocorticoide em anfíbios. Embora a modulação exercida pelos glicocorticoides de diversas respostas fisiológicas de estresse seja fundamental para a manutenção da homeostase em curto prazo, a ativação muito frequente e/ou prolongada do eixo hipotálamo-hipófise-interrenais (HHI) pode inibir processos importantes em longo prazo, tais como a reprodução e a imunocompetência e afetar a síntese de melatonina atuando diretamente sobre a pineal. O objetivo do presente estudo foi avaliar possíveis alterações nos níveis plasmáticos de corticosterona, testosterona, níveis oculares de melatonina, hematócrito e aspectos imunitários (contagem total de leucócitos e capacidade antimicrobiana plasmática - contra Escherichia coli) de machos da perereca Hypsiboas faber em resposta à injeção de ACTH, bem como o curso temporal destas respostas. Amostras de sangue e plasma foram obtidas a partir de 30 machos capturados em campo, dentro de 3 minutos da captura. Os animais foram trazidos para o laboratório e, após dois meses, divididos em seis grupos para serem amostrados em três horários distintos 1 h, 3h e 6h após o tratamento. Para cada horário um grupo controle e um grupo experimental foram adicionados, recebendo uma injeção de 105 μL de solução salina ou de solução de ACTH (0,446 μg de ACTH/g de massa corpórea (grupo experimental)). O tratamento com ACTH aumentou significativamente os níveis plasmáticos de corticosterona e diminuiu os níveis plasmáticos de testosterona bem como os níveis oculares de melatonina após 1 hora. Após 6 h da injeção de ACTH, houve um aumento da porcentagem do hematócrito e dos níveis de melatonina ocular. O tratamento com ACTH não afetou os aspectos imunitários estudados dentro do intervalo amostrado. Os resultados confirmam o papel da ativação do eixo HHI na inibição da secreção de testosterona e na modulação da secreção de melatonina, embora os possíveis efeitos imunomodulatórios possam se dar em intervalos temporais mais tardios / In response for several stressors, the amphibian hypothalamus release the corticotrophin release hormone (CRH), which stimulates pituitary to release the adenocorticotropic hormone (ACTH) in the bloodstream. The ACTH, in your turn, acts in inter renal glands stimulating the glicocorticoids releasing, being the corticosterone the main glicocorticoid in anphibians. While the modulation exercised by the glicocorticoids of diverses physiological responses of the stress is fundamental for de maintainance of homeostasis in short period, the frequent and/or prolongued activation of the hypothamlamus pituitary interenal axis (HHI) could inhibit important process in long periods, as the reproduction and immunocompetence and affect melatonin synthesis acting directly in pineal gland. The objective of the present study was evaluate possible alterations in plasmatic corticosterone levels, testosterone, eyes melatonin levels, hematocrit and immunity aspects (Total count leucocytes and antimicrobian plasmatic capacity - against Escherichia coli) from males of the treefrog Hypsiboas faber in response to ACTH injection, as well, the temporal course of these responses. Blood and plasma samples were obtained from the 30 males captured in the field, whitin 3 minutes from the capture. The animals were transferred to the laboratory and, after two months, divided in six groups to be sampled in three different times 1 h, 3 h and 6 h after treatment. For each time one control group and one experimental group were added, receiving one injection of 105 μL of saline or ACTH solution (0,446 μg de ACTH/g of body mass (experimental group)). The ACTH treatment increase significantly the plasmatic corticosterone levels and decrease the plasmatic testosterone levels, as well, the eye melatonin levels after one hour. After six hours of the ACTH injection, occurred the increase of the hematocrit percentage and the eye melatonin levels. The ACTH treatment did not affect the immunity aspects studied in the sampling interval. The results confirm the role of the activation on the axis HHI in the inhibition of the testosterone secretion and in the modulation of melatonin secretion, althougth the possible immunomodutatory effects could happen in temporal intervals later

Corticosterona

Estresse

Imunocompetência

Melatonina

Testosterona

Corticosterone

Immunocompetence

Melatonin

Stress

Testosterone

Population bottlenecks and the risk of parasitic and microbiological infections in the endangered saddleback (Philesturnus carunculatus) and South Island robin (Petroica a. australis)

Hale, Katrina Anne

January 2007

Severe population bottlenecks and the small size of many remnant habitats may render many bird populations prone to extinction from disease outbreaks. Bottlenecks may increase inbreeding which in turn may result in a low diversity of resistance and an immune system that is impaired or defective. Thus, bottlenecked populations may be less immunocompetent and more vulnerable to microbiological and parasitic perturbations. Few studies have assessed the effect of bottlenecks on the immunocompetence of birds. In this study, I used twelve saddleback (Philesturnus carunculatus) and two New Zealand robin (Petroica a. australis) populations, to determine if the severe bottlenecks reduce the immunocompetence of birds. When I experimentally challenged the immune system of two robin populations I found that despite the two populations having similar parasite loads, robins from the severely bottlenecked Motuara Island population exhibited a significantly lower T-cell mediated immune response than the source population (Nukuwaiata Island) suggesting that birds passing through severe population bottlenecks have a compromised immunocompetence. In the saddleback, severe bottlenecks, as well as high population densities and small island size, lead to individuals exhibiting higher stress levels and feather mite loads and lower immune function, as was evident by lower lymphocyte counts. I did not find levels of fluctuating asymmetry of saddlebacks to be directly influenced by bottleneck size. However, I did find that individuals with higher levels of fluctuating asymmetry had higher loads of hippoboscid flies and lower loads of coccidia suggesting a possible trade-off between growth and immune function. In contrast to previous studies looking at behavioural secondary sexual traits, I found no effect of founder number on the size of wattles in saddleback. I did however demonstrate that wattle size reflected the level of immune function in females as well as males, suggesting that females play a far greater role in offspring fitness than has been appreciated in traditional theories of sexual selection. Overall, my results indicate that severe bottlenecks can lead to reductions in immunocompetence in the resulting populations, especially in those populations that pass through the most severe bottlenecks. Based on the evidence from my thesis, I recommend conservation managers should aim to use at least 90 individuals to found new populations in order to reduce the deleterious effects of bottlenecks on immune function. If the costs of population bottlenecks and inbreeding are to be avoided, conservationists must adequately address the role of genetic factors in susceptibility to disease, and work towards minimising the risk of severe population bottlenecks in the management of endangered birds

immunocompetence

population bottlenecks

Philesturnus carunculatus

Petroica a. australis

disease

parasites

The effect of population bottleneck size on parasitic load and immunocompetence of introduced birds in New Zealand

Allen, Sophy Elizabeth

January 2008

I investigated parasitic infection and immunocompetence in populations of introduced bird species in New Zealand (NZ) that had experienced a range of population bottlenecks (11-808 individuals), and compared these parameters to non-bottlenecked conspecifics in the United Kingdom (UK). My aims were two-fold; firstly to assess if population bottlenecks are linked to increased parasite loads and/or decreased immunocompetence, and secondly, to assess at what severity of bottleneck these effects become evident. I found that ectoparasite load (chewing lice, Order: Phthiraptera, Sub-Orders: Amblycera & Ischnocera) was significantly higher in the more severely bottlenecked species in NZ than in the UK, whilst this difference became non-significant at more moderate bottlenecks. The difference was mainly driven by the Sub-Order Amblycera. The prevalence of avian malaria (Plasmodium spp.) was significantly negatively correlated to bottleneck size within NZ, after controlling for body mass. Total leucocyte and differential lymphocyte counts were elevated in the less bottlenecked species that were infected with malaria, whilst the populations at the more severe end of the bottleneck spectrum did not exhibit such a response. Furthermore, heterophil/lymphocyte (HL) ratio (a parameter used as an indicator of environmental and/or immunological stress), was significantly raised in the more bottlenecked species when compared to their UK counterparts, and this difference was correlated with the size of the bottleneck. Immunocompetence was further assessed by the experimental challenge of six introduced birds species in NZ with the mitogen phytohaemagglutinin (PHA). Immune response to PHA was significantly correlated to bottleneck size, but in the opposite direction to that predicted; immune response was greater in the more bottlenecked species. However, this may be an indication of increased investment in immunity, due to increased parasite and pathogen pressure or differential investment in varying components of the immune system. Finally, the immune response to PHA was compared in nestlings of two species that had experienced very different bottlenecks (70 vs. 653). After controlling for ectoparasitic infestation, I found no difference between the two species; however, this finding may be confounded by interspecific competition. Overall, my findings suggest that more severe population bottlenecks may result in increased susceptibility to pathogens, and impact on the immune system. This has a number of implications for the development of conservation protocols, and future avenues of research are suggested.

population bottleneck

introduced birds

immunocompetence

avian malaria

parasites.

Immune Redistribution to Skin in Wild and Domesticated Songbirds

Kuhlman, Joshua Ryan

06 April 2010

Implantation of dental sponges under the skin of lab rodents has been used to evaluate whether acute stress enhances leukocyte infiltration to a surgical site. First, I replicated this technique in house sparrows to test whether transient stressors cause similar immunoredistribution (i.e., movement of immune cells out of circulation and to the periphery) in a wild animal. As placement into captivity alone may serve as a stressor to wild animals, I compared sponge infiltration over different periods of captivity. Second, I compared how domestication affects immunoredistribution by comparing results of wild sparrows to domesticated zebra finches. Zebra finches were chosen because they are widely used for evolutionary ecology research, and they share a similar diet and comparable body size and lifestyle to house sparrows. Birds were randomly assigned to treatment groups of either a restraint stressor or no restraint stressor treatment prior to implantation. In the first chapter birds were also divided into one of three groups: sponge implantation at capture, after short duration captivity (1 or 2 days), or long duration captivity (1 month). Total leukocyte infiltration into the sponge varied among captive groups. Birds implanted at capture had greater leukocyte infiltration to the sponge compared to birds kept in captivity 1 or 2 days before implantation. Birds placed into captivity for 1 month before implantation showed similar sponge infiltration relative to the immediate implant group. However, time in captivity altered the dominant type of leukocytes present in the sponge at explant with lymphocytes decreasing with time in captivity and granulocytes increasing. Domestication affected cell infiltrates with domesticated species exhibiting more infiltration of heterophils and monocytes while wild house sparrows exhibited more infiltration of lymphocytes and basophils. My data indicates that in house sparrows, time in captivity affects the magnitude and character of immune responses to surgery and more importantly data are suggestive of immunoredistribution. My data also indicate that domestication has an impact on infiltrating cell types.

immunoredistribution

corticosterone

glucocorticoids

stress

immunocompetence

American Studies

Arts and Humanities

Trade-offs among immunity, hormones and alternative reproductive tactics of male Cape ground squirrels (Xerus inauris).

O'Brien, Kelsey A.

17 September 2015

Immunity and reproduction are important and costly life-history traits and a large part of eco-immunology focuses on trade-offs between investing in reproduction versus immunity. Male Cape ground squirrels (Xerus inauris) are a good organism to test these trade-offs as they invest heavily in sperm competition, evidenced by their large testes, and exhibit alternative reproductive tactics. My research objective was to determine 1) if testosterone suppresses immunity, or if immunity suppresses testosterone, and 2) if alternative reproductive tactics differ in their investments in immunity and reproduction. I found evidence that testosterone was suppressed after an immune challenge, and that manipulatively increased testosterone had no effect on immunity, body condition or parasites. The dispersing tactic males were in worse condition, had higher parasite abundances, but showed no difference in their innate immune ability to non-dispersing males. Males incur increased costs with dispersal and may focus their energy into reproduction instead of immunity. / October 2015

Eco-immunology

Immunocompetence handicap hypothesis

Cape ground squirrel

Alternative reproductive tactics

Eco-physiology

Immunity

Testosterone

Dispersal

Biopsychosocial Factors Related to Health among Older Women

Carter, Alice Powers

08 1900

Older adults are more vulnerable to the ill effects of life stress due to physiological changes associated with aging that result in decreased immunocompetence. Stressors interacting with an aging immune system may produce further declines in health. Variables shown to modulate the effect of stressors on neuroendocrine and immune function and health include social support, personality, coping style, and health locus of control. A comprehensive model is proposed that includes: life stressors, social resources, psychological resources, interaction between stressors and social resources, neuroendocrine and immune function, and symptomatology. This model was evaluated using structured equation modeling. Participants were 97 active, community dwelling, older women, ranging in age from 60 to 93 years.

Older women -- Health and hygiene.

Older women -- Psychology.

Older women -- Social conditions.

older women

immunocompetence