Ordner Jeffrey, Narula Navneet, Chiriboga Luis, Zeck Briana, Majd Mariam, Gupta Kapish, Gaglia Rebecca, Zhou Fang, Moreira Andre, Iman Rami, Ko Jane P, Le Linda, Wells Rebecca G, Theise Neil D
Department of Pathology, New York University Grossman School of Medicine, New York, New York, USA.
Economics Program, School of Behavioral and Social Sciences, Stockton University, Galloway, New Jersey, USA.
J Anat. 2025 Nov;247(5):1059-1068. doi: 10.1111/joa.14280. Epub 2025 May 29.
There is a body-wide network of interstitial spaces that includes three components: a large-scale fascial network made up of fluid-filled spaces containing collagens and other extracellular matrix components like hyaluronic acid (HA), the peri-vascular/capillary interstitium, and intercellular interstitial spaces. Staining for HA within the colon, skin, and liver has demonstrated spatial continuity of the fascial interstitium across tissue layers and between organs, while continuity of HA staining between perineurial and adventitial sheathes beyond organ boundaries confirmed that they also participate in this body-wide network. We asked whether the pulmonary interstitium comprises a continuous organ-wide network that also connects to the body-wide interstitium via routes along nerves and the vasculature. We studied archival lung lobectomy specimens containing normal tissues inclusive of all lung anatomical units from six females and three males (mean age 53+/- 16.5 years). For comparison, we also studied normal mouse lung. Multiplex immunohistochemical cocktails were used to identify: (1) HA, CD34, and vimentin - highlighting interstitium; (2) HA, CD34, and podoplanin (D2-40) - highlighting relationships between the interstitium, vasculature, and lymphatics. Sizes of extracellular APP were measured. Tissues from nine patients (six females, three males, mean age 53+/- 16.5 years) were studied. HA staining was continuous throughout the five major anatomic compartments of the lung: alveolar walls, subpleural connective tissue, centrilobular peribronchovascular compartment, interlobular septal compartment, and axial peribronchovascular of the hilum, with similar findings in murine lung tissue. Continuity with interstitial spaces of the perineurium and adventitia was confirmed. The distribution of APP corresponded to known routes of lymphatic drainage, superficial and deep. APP within perineurium and perivascular adventitia further demonstrated continuity between intra- and extrapulmonary interstitium. To conclude, all segments of the lung interstitium are connected and are linked along nerves and the vascular tree to a body-wide communication network. These findings have significant implications for understanding lung physiology and pathobiology, suggesting routes of passage for inflammatory cells and mediators, malignant cells, and infectious agents. Interstitial spaces may be important in microbiome signaling within and beyond the lung and may be a component of the lung-brain axis.
存在一个遍布全身的间质间隙网络,它包括三个组成部分:一个由充满液体的间隙构成的大规模筋膜网络,这些间隙含有胶原蛋白和其他细胞外基质成分,如透明质酸(HA);血管周围/毛细血管间质;以及细胞间间质间隙。对结肠、皮肤和肝脏中的HA进行染色,已证明筋膜间质在组织层之间以及器官之间具有空间连续性,而神经束膜和器官边界外的外膜鞘之间HA染色的连续性证实它们也参与了这个遍布全身的网络。我们询问肺间质是否构成一个连续的全器官网络,并且也通过沿着神经和脉管系统的路径与遍布全身的间质相连。我们研究了来自6名女性和3名男性(平均年龄53±16.5岁)的包含所有肺解剖单位的正常组织的存档肺叶切除标本。为了进行比较,我们还研究了正常小鼠肺。使用多重免疫组织化学鸡尾酒来识别:(1)HA、CD34和波形蛋白——突出间质;(2)HA、CD34和足板蛋白(D2 - 40)——突出间质、脉管系统和淋巴管之间的关系。测量细胞外APP的大小。研究了9名患者(6名女性,3名男性,平均年龄53±16.5岁)的组织。HA染色在肺的五个主要解剖区域中是连续的:肺泡壁、胸膜下结缔组织、小叶中心支气管血管周围区域、小叶间隔区域以及肺门的轴向支气管血管周围区域,在小鼠肺组织中也有类似发现。证实了与神经束膜和外膜的间质间隙的连续性。APP的分布与已知的浅部和深部淋巴引流途径相对应。神经束膜和血管周围外膜内的APP进一步证明了肺内和肺外间质之间的连续性。总之,肺间质的所有部分都是相连的,并且沿着神经和血管树与一个遍布全身的通讯网络相连。这些发现对于理解肺生理学和病理生物学具有重要意义,提示了炎性细胞和介质、恶性细胞以及传染因子的通行途径。间质间隙在肺内外的微生物群信号传导中可能很重要,并且可能是肺 - 脑轴的一个组成部分。
