Estudios en Neurociencias y Sistemas Complejos (CONICET - Hospital El Cruce - Universidad Nacional Arturo Jauretche), Buenos Aires, Argentina.
CONICET. División Antropología, Facultad de Ciencias Naturales y Museo, Universidad Nacional de La Plata, Buenos Aires, Argentina.
J Anat. 2022 Jul;241(1):1-12. doi: 10.1111/joa.13639. Epub 2022 Feb 7.
The morphological changes of the brain and the skull are highly integrated as a result of shared developmental pathways and different types of interactions between them. Shared developmental trajectories between these two structures might be influenced by genetic and environmental factors. Although the effect of environmental factors on neural and craniofacial traits has been extensively studied, less is known about the specific impact of stressful conditions on the coordinated variation between these structures. Here, we test the effect of early nutrient restriction on morphological correspondence between the brain and the endocast. For this purpose, mice exposed to protein or calorie-protein restriction during gestation and lactation were compared with a control group in which dams were fed standard food ad libitum. High-resolution images were obtained after weaning to describe brain and endocranial morphology. By magnetic resonance imaging (MRI), brain volumes were obtained and endocasts were segmented from skull reconstructions derived from micro-computed tomography (microCT). Brain and endocranial volumes were compared to assess the correspondence in size. Shape changes were analyzed using a set of landmarks and semilandmarks on 3D surfaces. Results indicated that brain volume is relatively less affected by undernutrition during development than endocast volume. Shape covariation between the brain and the endocast was found to be quite singular for protein-restricted animals. Procrustes distances were larger between the brain and the endocast of the same specimens than between brains or endocasts of different animals, which means that the greatest similarity is by type of structure and suggests that the use of the endocast as a direct proxy of the brain at this intraspecific scale could have some limitations. In the same line, patterns of brain shape asymmetry were not directly estimated from endocranial surfaces. In sum, our findings indicate that morphological variation and association between the brain and the endocast is modulated by environmental factors and support the idea that head morphogenesis results from complex processes that are sensitive to the pervasive influence of nutrient intake.
脑和颅骨的形态变化是高度整合的,这是由于它们之间存在共享的发育途径和不同类型的相互作用。这两种结构之间的共享发育轨迹可能受到遗传和环境因素的影响。虽然环境因素对神经和颅面特征的影响已经得到了广泛的研究,但对于应激条件对这些结构之间协调变化的具体影响知之甚少。在这里,我们测试了早期营养限制对脑和颅骨内表面之间形态对应关系的影响。为此,我们将在妊娠和哺乳期暴露于蛋白质或蛋白质-卡路里限制的小鼠与对照组进行比较,对照组中的母鼠可以自由摄入标准食物。在断奶后获得高分辨率图像,以描述脑和颅骨内表面的形态。通过磁共振成像(MRI)获得脑体积,并从微计算机断层扫描(microCT)重建的颅骨中分割出颅骨内表面。比较脑和颅骨内表面的体积,以评估大小的对应关系。使用一组标志点和 3D 表面上的半标志点分析形状变化。结果表明,脑体积在发育过程中受到营养不足的影响相对较小,而颅骨内表面体积受到的影响较大。还发现,蛋白质限制动物的脑和颅骨内表面之间的形状协变相当独特。同一标本的脑和颅骨内表面之间的 Procrustes 距离大于不同动物的脑或颅骨内表面之间的距离,这意味着最大的相似性是根据结构类型,这表明在这种种内尺度上,颅骨内表面可以作为脑的直接替代物使用可能存在一些限制。同样,脑形状不对称的模式也不能直接从颅骨内表面估计。总之,我们的研究结果表明,脑和颅骨内表面之间的形态变化和关联受到环境因素的调节,并支持这样一种观点,即头部形态发生是由复杂的过程产生的,这些过程对营养摄入的普遍影响很敏感。