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1. Naked Mole-Rats: Blind, Naked, and Feeling No Pain: Extreme Adaptations of the Naked Mole-Rat

   https://doi.org/10.1002/ar.23996  

   Browe, Brigitte M; Vice, Emily N; Park, Thomas J (October 2018, The Anatomical Record)

   Around the world and across taxa, subterranean mammals show remarkable convergent evolution in morphology (e.g. reduced external ears, small eyes, shortened limbs and tails). This is true of sensory systems as well (e.g. loss of object vision and high frequency hearing). The naked mole-rat (Heterocephalus glaber) displays these typical subterranean features, but also has unusual characteristics even among subterranean mammals. Naked mole-rats are cold-blooded, completely furless, very long-lived (> 30 years), and eusocial (like termites). They also live in large colonies, which is very unusual for subterraneans. Their cortical organization has reduced area for visual processing, utilizing 30% more cortex for tactile processing. They are extremely tolerant to oxygen deprivation, and can recover from 18 minutes of anoxia. Their pain pathway is reduced and they feel no pain from acidosis. They are the only rodent tested to date whose pheromone-detecting vomeronasal organ shows no postnatal growth. These features may be a result of this species' "extreme subterranean lifestyle" that combines living underground and living in large colonies. Many respiring animals cramped together in unventilated burrows elevates CO2 levels, high enough to cause acidosis pain, and depletes O2 concentrations low enough to kill other mammals. The naked mole-rat may be an extreme model of adaptation to subterranean life and provides insights into the complex interplay of evolutionary adaptations to the constraints of subterranean living. 

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2. Auditory brainstem development of Naked Mole-Rats (Heterocephalus glaber)

   McCullagh EA, Peacock J (August 2022, Proceedings Royal Society Biological Sciences)

   Life underground often leads to animals having specialized auditory systems to accommodate the constraints of acoustic transmission in tunnels. Despite living underground, naked mole-rats use a highly vocal communication system, implying that they rely on central auditory processing. However, little is known about these animals' central auditory system, and whether it follows a similar developmental time course as other rodents. Naked mole-rats show slowed development in the hippocampus suggesting they have altered brain development compared to other rodents. Here, we measured morphological characteristics and voltage-gated potassium channel Kv3.3 expression and protein levels at different key developmental time points (postnatal days 9, 14, 21 and adulthood) to determine whether the auditory brainstem (lateral superior olive and medial nucleus of the trapezoid body) develops similarly to two common auditory rodent model species: gerbils and mice. Additionally, we measured the hearing onset of naked mole-rats using auditory brainstem response recordings at the same developmental timepoints. In contrast with other work in naked mole-rats showing that they are highly divergent in many aspects of their physiology, we show that naked mole-rats have a similar hearing onset, between postnatal day (P) 9 and P14, to many other rodents. On the other hand, we show some developmental differences, such as a unique morphology and Kv3.3 protein levels in the brainstem. 

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3. Auditory brainstem development of naked mole-rats ( Heterocephalus glaber )

   https://doi.org/10.1098/rspb.2022.0878  

   McCullagh, Elizabeth A.; Peacock, John; Lucas, Alexandra; Poleg, Shani; Greene, Nathaniel T.; Gaut, Addison; Lagestee, Samantha; Zhang, Yalan; Kaczmarek, Leonard K.; Park, Thomas J.; et al (August 2022, Proceedings of the Royal Society B: Biological Sciences)

   Life underground often leads to animals having specialized auditory systems to accommodate the constraints of acoustic transmission in tunnels. Despite living underground, naked mole-rats use a highly vocal communication system, implying that they rely on central auditory processing. However, little is known about these animals' central auditory system, and whether it follows a similar developmental time course as other rodents. Naked mole-rats show slowed development in the hippocampus suggesting they have altered brain development compared to other rodents. Here, we measured morphological characteristics and voltage-gated potassium channel K v 3.3 expression and protein levels at different key developmental time points (postnatal days 9, 14, 21 and adulthood) to determine whether the auditory brainstem (lateral superior olive and medial nucleus of the trapezoid body) develops similarly to two common auditory rodent model species: gerbils and mice. Additionally, we measured the hearing onset of naked mole-rats using auditory brainstem response recordings at the same developmental timepoints. In contrast with other work in naked mole-rats showing that they are highly divergent in many aspects of their physiology, we show that naked mole-rats have a similar hearing onset, between postnatal day (P) 9 and P14, to many other rodents. On the other hand, we show some developmental differences, such as a unique morphology and K v 3.3 protein levels in the brainstem. 

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4. Naked Mole-Rats Demonstrate Profound Tolerance to Low Oxygen, High Carbon Dioxide, and Chemical Pain

   https://doi.org/10.3390/ani13050819  

   Amoroso, Vince G.; Zhao, Aishi; Vargas, Isabel; Park, Thomas J. (March 2023, Animals)

   Naked mole-rats (Heterocephalus glaber) are very unusual among subterranean mammals in that they live in large colonies and are extremely social, spending large amounts of time gathered together in underground nests more than a meter below the surface. Many respiring individuals resting in deep, poorly ventilated nests deplete the oxygen supply and increase the concentration of carbon dioxide. Consistent with living in that atmosphere, naked mole-rats tolerate levels of low oxygen and high carbon dioxide that are deadly to most surface-dwelling mammals. Naked mole-rats appear to have evolved a number of remarkable adaptations to be able to thrive in this harsh atmosphere. In order to successfully survive low oxygen atmospheres, they conserve energy utilization by reducing the physiological activity of all organs, manifest by reduced heart rate and brain activity. Amazingly, they resort to the anaerobic metabolism of fructose rather than glucose as a fuel to generate energy when challenged by anoxia. Similarly, high carbon dioxide atmospheres normally cause tissue acidosis, while naked mole-rats have a genetic mutation preventing both acid-induced pain and pulmonary edema. Together, these putative adaptations and the tolerances they provide make the naked mole-rat an important model for studying a host of biomedical challenges. 

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5. Life without substance P: The naked mole rat

   https://doi.org/10.1016/B978-0-443-22194-1.00013-6  

   Zhao, Aishi; Lee, Jiwon; Gryszkiewicz, Weronika; Park, Thomas J (January 2025, Elsevier)

   Vink, Robert (Ed.)

   The African naked mole rat (Heterocephalus glaber) is a small, eusocial rodent that lives in large colonies consisting of up to 295 individuals. Their skin is pink and translucent, and naked mole rats have a distinct set of incisors that protrude externally from the mouth so that they can close their lips behind their teeth while using the teeth to dig tunnels, toilets, and nest chambers. They construct and inhabit complex underground tunnel systems in the Horn of Africa where they are protected from climate extremes and predators on the surface, but still face limited resources (sparsely distributed food), and a biologically challenging environment where there is a depletion of oxygen and an accumulation of carbon dioxide from many respirating individuals living in an unventilated space. This is particularly an issue in the communal nest chambers where animals gather to huddle and sleep. Data from Zions et al. show that the nest chambers in colonies of captive naked mole rats have significantly, and substantially higher concentrations of CO2 compared to other compartments in the housing system. They also showed that on average, colony members spent more than 70% of their time in the nest chamber, exposed to elevated CO2. Naked mole rats have a multitude of biological adaptations that make them specialized for life in humid, congested, poorly ventilated burrows. Subsequently, this species is a fascinating and important nontraditional model for biomedical research. Studies have focused on topics such as tolerance to hypoxia and hypercapnia, extreme longevity, resistance to cancer, and insensitivity to chemical pain. One remarkable feature that naked mole rats display is the lack of Substance P from their peripheral nerves. Substance P is associated with pain from a variety of irritants such as carbon dioxide (CO2), acid, capsaicin, and ammonia, as well as itch-like pruritogen, like histamines. Lack of Substance P is presumably an adaptation to reduce the negative effects of living in a high CO2 atmosphere, which would cause a burning sensation in the nasal cavity and around the eyes, as well as acidosis in the lungs that causes pulmonary edema. This chapter reviews how this feature affects their physiology and behavior. For example, naked mole rats show a blunted response to inflammatory pain, complete insensitivity to irritants such as capsaicin, ammonia, and acid, and they do not show a scratching response to histamine. 

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