Repeated immune challenges affect testosterone but not sperm quality

Needham, Katie B.; Kucera, A; Heidinger, Britt J.; Greives, Timothy J.

doi:10.1002/jez.2110

Cited by 4 publications

(4 citation statements)

References 97 publications

(128 reference statements)

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“…They also found that, when faced with an immune challenge through the subcutaneous injection of a lipopolysaccharide (LPS) to stimulate the innate immune system, there was a significant decrease in testosterone levels as well as an increase in cortisol levels. Similar decreases in testosterone levels have been seen after immune challenges in Indian peafowl (Pavo cristatus; Ros et al, 2008), short-tailed fruit bats (Carollia perspicillata; Greiner et al, 2010) and house sparrows (Passer domesticus; Needham et al, 2017). The direction of this effect, of increased immunity causing a decline in testosterone, could be the result of specific chemicals suppressing testosterone or the energetic costs of mounting an immune response may leave less energy to maintain high levels of testosterone (resource allocation constraints; Burness et al, 2010;Demas and Nelson, 2012).…”

Section: Introductionsupporting

confidence: 60%

“…Although we found a significant effect of the LPS challenge on circulating testosterone, we did not find an effect on average scrotal volume. Interestingly, Needham et al (2017) found that testosterone levels of house sparrows (P. domesticus) decreased after a first and second LPS challenge, but there was no effect on sperm quality, suggesting that there may be mechanisms in place to avoid consequences of pathogen exposure on reproductive output. The lack of change observed in scrotal size of treated animals in our study may also be due to the acute and short-term effects of the LPS challenge (Lutermann et al, 2012), which may not have been able to change scrotal volume significantly over the relatively short time period.…”

Section: Discussionmentioning

confidence: 99%

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Trade-offs between immunity and testosterone in male African ground squirrels

O’Brien

Waterman

Anderson

et al. 2018

Journal of Experimental Biology

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The immunocompetence handicap hypothesis (ICHH) proposes that testosterone has both beneficial effects on male reproductive potential and negative effects by suppressing the immune system. However, support for the ICHH has been variable and an alternative hypothesis suggests that testosterone may be acting indirectly via cortisol to suppress immunity (the stress-linked ICHH). A third hypothesis is that increased energetic investment in immunity results in the suppression of testosterone. We tested these hypotheses in male Cape ground squirrels () through two separate manipulations: first, by triggering a strong immune response using a lipopolysaccharide (LPS) injection and, secondly, by increasing circulating testosterone using silastic testosterone implants. Responding to an immune challenge significantly reduced testosterone, supporting the immune suppression hypothesis, while increasing circulating testosterone had no effect on immunocompetence, body mass, ectoparasite abundances or cortisol levels, failing to support either the ICHH or stress-linked ICHH. Our results add to the increasing body of literature that challenges the ICHH, and we conclude that the trade-off between testosterone and immunity is mediated through immune activation and not through testosterone in male Cape ground squirrels. Being able to test the ICHH, stress-linked ICHH and immune suppression hypotheses in a free-ranging mammal gives us a unique opportunity to examine the mechanisms mediating this trade-off.

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Section: Introductionsupporting

confidence: 60%

Section: Discussionmentioning

confidence: 99%

Trade-offs between immunity and testosterone in male African ground squirrels

O’Brien

Waterman

Anderson

et al. 2018

Journal of Experimental Biology

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“…Negative effects of immune system activation on sperm function have also been seen in great tits Parus major (Losdat et al, 2011) and guppies Poecilia reticulata (Devigili et al, 2017), lending further support to the idea. However, a similar test in the house sparrow Passer domesticus, while demonstrating a negative impact of infection on testosterone, failed to detect harm to sperm quality (Needham et al, 2017). Thus, whether somatic infections negatively impact sperm is likely specific to the host or parasite species, or dependent on the strength of infection.…”

Section: Effects Of Infections In Males Including Stis On Sperm Sucmentioning

confidence: 98%

Sperm success and immunity

Wigby

Suárez

Lazzaro

et al. 2019

Current Topics in Developmental Biology

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The moment of the fertilization of an egg by a spermatozoon-the point of "sperm success"-is a key milestone in the biology of sexually reproducing species and is a fundamental requirement for offspring production. Fertilization also represents the culmination of a suite of sexually selected processes in both sexes and is commonly used as a landmark to measure reproductive success. Sperm success is heavily dependent upon interactions with other key aspects of male and female biology, with the immune system among the most important. The immune system is vital to maintaining health in both sexes; however, immune reactions can also have antagonistic effects on sperm success. The effects of immunity on sperm success are diverse, and may include trade-offs in the male between investment in the production or protection of sperm, as well as more direct, hostile, immune responses to sperm within the female, and potentially the male, reproductive tract. Here, we review current understanding of where the biology of immunity and sperm meet, and identify the gaps in our knowledge.

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“…However, such deleterious effects of immunity on male reproductive function are not always observed. For example, a recent study on house sparrows showed no negative effect of immunity on sperm performance despite diminishing testosterone levels (Needham et al, 2017). Because sperm performance is supposedly condition dependent (Simmons and Kotiaho, 2002;Gasparini and Pilastro, 2011), one explanation for our negative result could be that the immune challenge triggered by the experimental infection was not energetically demanding enough to affect individual 'condition' and in turn to impact conditiondependent traits such as sperm performance.…”

Section: Discussionmentioning

confidence: 66%

Social dominance, but not parasite load, affects sperm quality and sperm redox status in house sparrows

Losdat

Mora

Bellut

et al. 2019

Journal of Experimental Biology

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Sperm performance is an important component of male reproductive success. However, sperm production is costly and males need to optimize their investment in sperm quality versus the somatic traits involved in mating success, e.g. their social status. As oxidative stress affects both sperm performance and somatic functions, it has been hypothesized to mediate such a trade-off. According to the oxidationbased soma/germline trade-off hypothesis, dominant males should favour the antioxidant protection of their somatic tissues, and subordinate males should favour the antioxidant protection of their sperm. We tested this hypothesis by experimentally infecting wildcaught house sparrows Passer domesticus with Coccidia Isopora sp., an internal parasite known to deplete antioxidant resources. We predicted that (i) increased parasite load affects sperm oxidative status and sperm performance and that (ii) males with experimentally high parasite load adjust the antioxidant protection of their soma versus their sperm according to their social status. Despite a 5400% increase in parasite load, sperm performance and somatic and spermatic oxidative status remained unaffected, irrespective of male social status. Nevertheless, males increased their sperm performance over time, a pattern mirrored by an increase in the antioxidant protection of their sperm. Moreover, males at the lower end of the hierarchy always produced sperm of lower velocity, suggesting that they were constrained and privileged their soma over their germline. To conclude, high parasite loads do not necessarily affect sperm performance and oxidative status. In contrast, social hierarchy and the relative investment in soma versus sperm antioxidant protection are determinants of sperm performance.

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Repeated immune challenges affect testosterone but not sperm quality

Cited by 4 publications

References 97 publications

Trade-offs between immunity and testosterone in male African ground squirrels

Trade-offs between immunity and testosterone in male African ground squirrels

Sperm success and immunity

Social dominance, but not parasite load, affects sperm quality and sperm redox status in house sparrows

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