Tumor-Associated Neutrophils and Desmoplastic Reaction in Breast Cancer Microenvironment: Association with Tumor Grade and Clinicopathological Features.
[BACKGROUND] The tumor microenvironment (TME), composed of diverse immune and stromal cells, plays a key role in cancer progression.
- 표본수 (n) 65
APA
Papadopoulou S, Michou V, et al. (2026). Tumor-Associated Neutrophils and Desmoplastic Reaction in Breast Cancer Microenvironment: Association with Tumor Grade and Clinicopathological Features.. Cancers, 18(3). https://doi.org/10.3390/cancers18030406
MLA
Papadopoulou S, et al.. "Tumor-Associated Neutrophils and Desmoplastic Reaction in Breast Cancer Microenvironment: Association with Tumor Grade and Clinicopathological Features.." Cancers, vol. 18, no. 3, 2026.
PMID
41681878
Abstract
[BACKGROUND] The tumor microenvironment (TME), composed of diverse immune and stromal cells, plays a key role in cancer progression. Among its components, tumor-associated neutrophils (TANs) and the desmoplastic reaction (DR) have emerged as important modulators of tumor behavior. While each has been extensively studied, their interrelationship and association with tumor grade and clinicopathological parameters remain unclear.
[AIM] This hypothesis-generating study aimed to explore the relationship between the presence of TANs, various types of DR, the grade of tumor malignancy, and other fundamental clinicopathological characteristics commonly studied in daily clinical practice.
[MATERIALS AND METHODS] The study included a cohort of 65 cancer patients (N = 65). The average number of TANs was recorded. In hematoxylin and eosin (H&E)-stained sections, "hot spots" representing areas with the highest neutrophil density were first identified. The tumor-associated polymorphonuclear neutrophils were then counted in ten consecutive high-power fields (HPFs). In the same specimens, the DR was assessed and classified according to stromal texture.
[RESULTS] TANs did not follow a normal distribution across any clinicopathological category ( < 0.05). Significant differences in TAN levels were observed among DR types (Kruskal-Wallis H = 9.890, = 0.007), with higher counts in myxoid compared to mature stroma (Mean Rank = 41.58 vs. 24.80, = 0.006). TAN levels also varied significantly with tumor grade (H = 22.384, < 0.001), increasing from Grade 1 to Grade 3 ( < 0.013-0.001). Higher TAN counts were associated with cellular erythroblastic oncogene B2 (c-erbB2) positivity (H = 6.547, = 0.038), perineural invasion (Mann-Whitney U = 179.5, < 0.001), and ER/PR negativity ( = 0.016 and = 0.044, respectively). No significant association was found with necrosis ( = 0.083). A near-significant relationship was identified between DR type and tumor differentiation grade (χ = 9.448, = 0.051), with mature stroma most common in Grade 1 tumors, keloid-like stroma in Grade 2, and myxoid stroma in Grade 3.
[CONCLUSIONS] High TAN levels were linked to aggressive tumor features and specific DR patterns. The association of myxoid stroma with elevated TAN infiltration may reflect a highly aggressive TME. These preliminary results warrant validation in larger, prospective studies.
[AIM] This hypothesis-generating study aimed to explore the relationship between the presence of TANs, various types of DR, the grade of tumor malignancy, and other fundamental clinicopathological characteristics commonly studied in daily clinical practice.
[MATERIALS AND METHODS] The study included a cohort of 65 cancer patients (N = 65). The average number of TANs was recorded. In hematoxylin and eosin (H&E)-stained sections, "hot spots" representing areas with the highest neutrophil density were first identified. The tumor-associated polymorphonuclear neutrophils were then counted in ten consecutive high-power fields (HPFs). In the same specimens, the DR was assessed and classified according to stromal texture.
[RESULTS] TANs did not follow a normal distribution across any clinicopathological category ( < 0.05). Significant differences in TAN levels were observed among DR types (Kruskal-Wallis H = 9.890, = 0.007), with higher counts in myxoid compared to mature stroma (Mean Rank = 41.58 vs. 24.80, = 0.006). TAN levels also varied significantly with tumor grade (H = 22.384, < 0.001), increasing from Grade 1 to Grade 3 ( < 0.013-0.001). Higher TAN counts were associated with cellular erythroblastic oncogene B2 (c-erbB2) positivity (H = 6.547, = 0.038), perineural invasion (Mann-Whitney U = 179.5, < 0.001), and ER/PR negativity ( = 0.016 and = 0.044, respectively). No significant association was found with necrosis ( = 0.083). A near-significant relationship was identified between DR type and tumor differentiation grade (χ = 9.448, = 0.051), with mature stroma most common in Grade 1 tumors, keloid-like stroma in Grade 2, and myxoid stroma in Grade 3.
[CONCLUSIONS] High TAN levels were linked to aggressive tumor features and specific DR patterns. The association of myxoid stroma with elevated TAN infiltration may reflect a highly aggressive TME. These preliminary results warrant validation in larger, prospective studies.