Cessation of Reproduction‐Related Spine Elongation After Multiple Breeding Cycles in Female Naked Mole‐Rats

The breeding female or “queen” naked mole‐rat has a uniquely elongated body morphology attributed to the lengthening of the lumbar vertebral column that occurs during pregnancy. It is unknown whether this vertebral growth is a continuous process, or associated only with early reproductive experience...

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Bibliographic Details
Published in:Anatomical record (Hoboken, N.J. : 2007) N.J. : 2007), 2009-01, Vol.292 (1), p.131-137
Main Authors: Dengler‐Crish, Christine M., Catania, Kenneth C.
Format: Article
Language:English
Subjects:
Animals
Breeding
eusocial
Female
Heterocephalus glaber
lactation
longitudinal bone growth
lumbar vertebrae
Male
Mole Rats
Pregnancy
Pregnancy, Animal - physiology
Rats
Reproduction - physiology
rodents
Spine - growth & development
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Summary:The breeding female or “queen” naked mole‐rat has a uniquely elongated body morphology attributed to the lengthening of the lumbar vertebral column that occurs during pregnancy. It is unknown whether this vertebral growth is a continuous process, or associated only with early reproductive experience. We compared pregnancy‐related bone elongation in nascent primiparous queens and established queens to determine if this vertebral expansion was a lifelong process in these females. We also investigated the impact of lactation on vertebral elongation in these mole‐rats because it is known to be a time of significant bone loss in other mammals. Our data show that after eight or more pregnancies, established queens no longer experienced a net gain in lumbar spine length over the reproductive cycle, whereas the nascent breeders demonstrated significant spine lengthening over this time. Despite the lack of net spine lengthening in established breeders, our results indicated that these queens still experienced some pregnancy‐specific vertebral elongation. In naked mole‐rats, pregnancy‐induced bone elongation may serve the dual purposes of first lengthening the spine, and then once optimal spine size is achieved, serving as a homeostatic mechanism that prepares the spine for the mineral demands of lactation. Anat Rec, 2009. © 2008 Wiley‐Liss, Inc.
ISSN:1932-8486
1932-8494
1932-8494
1932-8486
DOI:10.1002/ar.20793