Sperm from Sneaker Male Squids Exhibit Chemotactic Swarming to CO2

Hirohashi, Noritaka; Álvarez, Luis J.; Shiba, Kogiku; Fujiwara, Eiji; Iwata, Yoko; Mohri, Tatsuma; Inaba, Kazuo; Chiba, Kazuyoshi; Ochi, Hiroe; Supuran, Claudiu T.; Kotzur, N.c; Kakiuchi, Yoshihiro; Kaupp, U. Benjamin; Baba, Shoji A.

doi:10.1016/j.cub.2013.03.040

Cited by 49 publications

(42 citation statements)

References 38 publications

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“…Because they are inseminated externally and yet moved to the seminal receptacle, self-clustering could be associated with postcopulatory event(s) specific to sneaker spermatozoa, such as sustained longevity, migration to the seminal receptacle, or switching their respiratory mode. This study, together with previous reports (19,20), suggests that there has been coordinated evolution of complex adaptive traits constrained by postcopulatory reproductive contexts. Future studies should address the molecular and cellular mechanisms of how squid spermatozoa are capable of storing glycogen at different levels.…”

Section: Discussionmentioning

confidence: 90%

“…Consort Spermatozoa-We demonstrated previously that, in H. bleekeri, both sneaker and consort male individuals produce euspermatozoa that are distinguishable from each other in morphological (flagellar length) and behavioral (self-swarming) properties (19,20). Although they are both fertilization-competent, we noted that sneaker spermatozoa exhibited greater fertilization success than consort spermatozoa when inseminated in vitro (19).…”

Section: Sneaker Spermatozoa Exhibit Longer Fertilization Competence mentioning

confidence: 91%

“…Our previous observations revealed that, even after ejaculation, sneaker spermatozoa do not freely diffuse into seawater; instead, they preferentially stay in the vicinity of the ejaculatory duct of the spermatangium by forming a cluster (25). This phenomenon is absent in consort spermatozoa and can be explained by sneaker-specific sperm chemotaxis in response to self-emitted CO 2 (20). The physiological role of this clustering trait in sneaker spermatozoa remains to be determined; however, a sharp contrast in swimming behavior between sneaker and consort spermatozoa led us to examine the relationship between sperm concentration and sperm viability.…”

Section: Discussionmentioning

confidence: 99%

“…The chemoreceptor for CO 2 is a membrane-anchored carbonic anhydrase (CA) that catalyzes the following reaction: CO 2 ϩ HO % HCO 3 Ϫ ϩ H ϩ . Protons produced through this reaction are the actual chemoattractants, so a proper proton gradient, created naturally or experimentally in the microenvironment, can lead to the formation of sperm clusters (20). Considering the facilitated lactate efflux from sneaker spermatozoa and rapid conversion into protons, we hypothesized that lactic acidosis might enhance sperm clustering.…”

Section: The Seminal Receptacle Might Protect Stored Sperm Frommentioning

confidence: 99%

“…Sperm Clusters Are Stabilized in a Nutrient-rich Environment-Previously, we found that spermatozoa from sneaker males exhibit self-clustering behavior caused by chemotaxis to respiratory CO 2 (20,25). The chemoreceptor for CO 2 is a membrane-anchored carbonic anhydrase (CA) that catalyzes the following reaction: CO 2 ϩ HO % HCO 3 Ϫ ϩ H ϩ .…”

Section: The Seminal Receptacle Might Protect Stored Sperm Frommentioning

confidence: 99%

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Sneaker Male Squid Produce Long-lived Spermatozoa by Modulating Their Energy Metabolism

Hirohashi

Tamura‐Nakano

Nakaya

et al. 2016

Journal of Biological Chemistry

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Spermatozoa released by males should remain viable until fertilization. Hence, sperm longevity is governed by intrinsic and environmental factors in accordance with the male mating strategy. However, whether intraspecific variation of insemination modes can impact sperm longevity remains to be elucidated. In the squid Heterololigo bleekeri, male dimorphism (consort and sneaker) is linked to two discontinuous insemination modes that differ in place and time. Notably, only sneaker male spermatozoa inseminated long before egg spawning can be stored in the seminal receptacle. We found that sneaker spermatozoa exhibited greater persistence in fertilization competence and flagellar motility than consort ones because of a larger amount of flagellar glycogen. Sneaker spermatozoa also showed higher capacities in glucose uptake and lactate efflux. Lactic acidosis was considered to stabilize CO 2 -triggered self-clustering of sneaker spermatozoa, thus establishing hypoxia-induced metabolic changes and sperm survival. These results, together with comparative omics analyses, suggest that postcopulatory reproductive contexts define sperm longevity by modulating the inherent energy levels and metabolic pathways.Sperm traits can evolve through postcopulatory contexts involving sperm competition, cryptic female choice, and insemination/fertilization environments. As consequences of sperm competition (1, 2) and cryptic female choice (3, 4), male individuals of certain species have evolved to produce giant spermatozoa to achieve better fertilization success. Besides morphological traits, the evolutionary forces driven by postcopulatory sexual selection should also favor more effective sperm motility and hence influence their morphological and energetic traits (5), thus facilitating fertilization in polyandrous mating systems. Sperm competition theory predicts that an increased risk of sperm competition (sometimes referred to as female promiscuity) should result in selection for increased sperm swimming velocity. A growing body of evidence has supported this prediction. Thus, a positive relationship between sperm swimming speed and sperm competitiveness was seen not only in external fertilizers such as fish (6 -8) but also in internal fertilizers such as birds (9, 10) and mammals (11). Commonly, polyandrous insemination can occur simultaneously (external fertilization) or sequentially (internal fertilization) toward the same set of eggs. However, in species that employ internal fertilization, female individuals often store spermatozoa in their reproductive tract and use them during multiple ovulation cycles (12-14). Thus, it is possible that spermatozoa with greater longevity might have greater reproductive fitness than those with increased velocity. This implicates that spermatozoa should be able to modulate their energy expenditure adequately depending on the postmating contexts.The coastal squid Heterololigo bleekeri exhibits alternative male mating tactics in which complex polyandrous inseminations occur at different places and...

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Section: Discussionmentioning

confidence: 90%

Section: Sneaker Spermatozoa Exhibit Longer Fertilization Competence mentioning

confidence: 91%

Section: Discussionmentioning

confidence: 99%

Section: The Seminal Receptacle Might Protect Stored Sperm Frommentioning

confidence: 99%

Section: The Seminal Receptacle Might Protect Stored Sperm Frommentioning

confidence: 99%

See 3 more Smart Citations

Sneaker Male Squid Produce Long-lived Spermatozoa by Modulating Their Energy Metabolism

Hirohashi

Tamura‐Nakano

Nakaya

et al. 2016

Journal of Biological Chemistry

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Chemical Signaling in Aquatic Ecosystems

Lunsford

Jenkins

Ferrer

2019

Encyclopedia of Water

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Chemical information mediates many of the biotic relationships that shape aquatic communities. Mate attractants and courtship pheromones determine successful reproductive encounters. Conspecific and environmental chemical cues influence the distribution of settling larvae and the ability of organisms to navigate across great distances to suitable habitat. Allelopathic agents can determine winners and losers in competition over resources, while signals transmitted between mutualists facilitate cooperation. Substances emitted from predators and prey provide early warnings of imminent threats to prey, while guiding predators to their next meal. Each of these individual interactions contributes to the dynamic nature of populations and communities in aquatic ecosystems. In this article, we provide an overview of the roles of chemistry and fluid dynamics in chemical ecology, and highlight several ecological interactions and life history events that are significantly affected by chemical cues, signals, and defenses. We offer examples from the literature that emphasize a multidisciplinary approach, when possible, and include promising future directions for research in large‐scale aquatic chemical ecology.

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Dimorphic ejaculates and sperm release strategies associated with alternative mating behaviors in the squid

Apostólico

Marian

2017

Journal of Morphology

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Sperm competition is a powerful postcopulatory selective force influencing male adaptations associated with increasing fertilization success, and it is usually related to the evolution of different strategies of ejaculate expenditure between individuals. Ejaculates may also be influenced by additional selective pressures associated with sperm competition, such as timing between insemination and fertilization, female reproductive tract morphology, and fertilization environment. Also, males that adopt alternative mating tactics may face distinct sperm competition pressures, which may lead to the evolution of intraspecific diversity in ejaculates. In loliginid squids, males with alternative reproductive tactics (sneakers and consorts) differ not only in mating behavior, but also transfer spermatophores into two distinct sites within the female. Here, we compared structure and functioning of spermatophores between sneakers and consorts in the squid Doryteuthis plei applying microscopy techniques and in vitro experiments. Sneakers and consorts exhibit differences in spermatophore structure that lead to distinct spermatophoric reactions and spermatangium morphologies. Moreover, in sneakers, sperm release lasts longer and their sperm show an aggregative behavior not detected in consorts. Slow sperm release may be a strategy to guarantee longer sperm provision, given the wide interval between sneaker mating and egg release. For consorts, in turn, intense and quick sperm discharge may be advantageous, as timing between mating and egg-laying is relatively short. Within the complex squid mating system, factors such as (i) different fertilization sites and (ii) interval between mating and egg release may also influence sperm competition, and ultimately shape the evolution of divergent ejaculates between dimorphic males.

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Sperm from Sneaker Male Squids Exhibit Chemotactic Swarming to CO2

Cited by 49 publications

References 38 publications

Sneaker Male Squid Produce Long-lived Spermatozoa by Modulating Their Energy Metabolism

Sneaker Male Squid Produce Long-lived Spermatozoa by Modulating Their Energy Metabolism

Chemical Signaling in Aquatic Ecosystems

Dimorphic ejaculates and sperm release strategies associated with alternative mating behaviors in the squid

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