A novel immunofluorescence study of Lingual Salivary Glands in the Egyptian Tortoise (Testudo kleinmanni) and its ecological significance

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Ahmed M. Rashwan , Samir A.A. El-Gendy , Ahmed A. El-Mansi , Mamdouh B. Eldesoqui , Mohamed A.M. Alsafy
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引用次数: 0

Abstract

The Egyptian tortoise (Testudo kleinmanni) is remarkably adapted to its harsh desert environment, a characteristic that is crucial for its survival under extreme conditions. This study was aimed at providing a deeper understanding of the lingual salivary gland structures in the Egyptian tortoise and examining how these structures help the tortoise manage hydration and nutrition in arid conditions. Utilizing a combination of light microscopy and immunofluorescence, this research introduced pioneering methods involving seven different antibodies, marking a first in the study of reptilian salivary glands. Our investigations categorized the tortoise’s salivary glands into papillary and non-papillary types. The papillary glands were further classified into superficial, deep, interpapillary, and intraepithelial salivary glands, while non-papillary glands included superficial and deep lingual types. Structurally, these glands are organized into lobules, delineated by interlobular septa, and are equipped with a duct system comprising interlobular, intercalated, and main excretory ducts with gland openings on the tongue's surface and the papillae surfaces. Notably, the superficial glands displayed both tubuloalveolar and acinar configurations, whereas the deep lingual glands were exclusively acinar. Immunofluorescence results indicated that α-smooth muscle actin (α-SMA) was prevalent in myoepithelial cells, myofibroblasts, and blood vessels, suggesting their integral role in glandular function and support. E-cadherin was predominantly found in epithelial cells, enhancing cell adhesion and integrity, which are critical for efficient saliva secretion. Importantly, Mucin 1 (MUC1) and Mucin 5B (MUC5B) staining revealed that most glands were mucous in nature, with MUC5B specifically marking mucin within secretory cells, confirming their primary function in mucous secretion. PDGFRα and CD34 highlighted the presence of telocytes and stromal cells within the glandular and interlobular septa, indicating a role in structural organization and possibly in regenerative processes. Cytokeratin 14 expression was noted in the basal cells of the glands, underscoring its role in upholding the structural foundation of the epithelial barrier. In conclusion, this detailed morphological and immunological characterization of the Egyptian tortoise’s salivary glands provides new insights into their complex structure and essential functions. These findings not only enhance our understanding of reptilian physiology but also underline the critical nature of salivary glands in supporting life in arid environments. This study's innovative use of a broad range of immunofluorescence markers opens new avenues for further research into the adaptive mechanisms of reptiles.

埃及陆龟(Testudo kleinmanni)舌唾液腺的新型免疫荧光研究及其生态学意义。
埃及陆龟(Testudo kleinmanni)非常适应恶劣的沙漠环境,这一特性对其在极端条件下的生存至关重要。本研究旨在深入了解埃及陆龟的舌唾液腺结构,并研究这些结构如何帮助陆龟在干旱条件下管理水分和营养。这项研究结合使用了光学显微镜和免疫荧光技术,开创性地引入了涉及七种不同抗体的方法,这在爬行动物唾液腺研究领域尚属首次。我们的研究将陆龟的唾液腺分为乳头状和非乳头状两种类型。乳头状唾液腺又分为浅唾液腺、深唾液腺、乳头间唾液腺和上皮内唾液腺,而非乳头状唾液腺则包括浅舌状唾液腺和深舌状唾液腺。从结构上看,这些腺体被组织成小叶,由小叶间隔膜划分,并配有由小叶间导管、闰导管和主排泄导管组成的导管系统,腺体开口位于舌表面和乳头表面。值得注意的是,浅层腺体既有管状腺泡结构,也有针状结构,而舌深层腺体则完全是针状结构。免疫荧光结果显示,α-平滑肌肌动蛋白(α-SMA)普遍存在于肌上皮细胞、肌成纤维细胞和血管中,表明它们在腺体功能和支持中发挥着不可或缺的作用。E-cadherin主要存在于上皮细胞中,可增强细胞粘附性和完整性,这对唾液的有效分泌至关重要。重要的是,粘蛋白 1(MUC1)和粘蛋白 5B(MUC5B)染色显示,大多数腺体具有粘液性质,其中 MUC5B 专门标记分泌细胞内的粘蛋白,证实了它们在粘液分泌中的主要功能。PDGFRα和CD34突出显示了腺体和小叶间隔膜内存在端细胞和基质细胞,表明它们在结构组织中发挥作用,也可能在再生过程中发挥作用。在腺体基底细胞中发现了细胞角蛋白 14 的表达,强调了其在维护上皮屏障结构基础中的作用。总之,这次对埃及陆龟唾液腺形态学和免疫学特征的详细分析,为我们了解唾液腺的复杂结构和基本功能提供了新的视角。这些发现不仅增进了我们对爬行动物生理机能的了解,还强调了唾液腺在干旱环境中维持生命的重要作用。这项研究创新性地使用了多种免疫荧光标记物,为进一步研究爬行动物的适应机制开辟了新途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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