Rayner Charles J, Bartlett David B, Allen Sophie K, Wooldridge Tyler, Seymour Tadd, Sunshine Sunny, Hunt Julie, King David, Bagwan Izhar, Sultan Javed, Preston Shaun R, Frampton Adam E, Annels Nicola E, Abbassi-Ghadi Nima
Section of Oncology, Department of Clinical and Experimental Medicine, Faculty of Health and Medical Sciences, University of Surrey, Guildford GU27XH, UK; Department of Oesophago-Gastric Surgery, Royal Surrey NHS Foundation Trust, Guildford GU27XX, UK.
Section of Oncology, Department of Clinical and Experimental Medicine, Faculty of Health and Medical Sciences, University of Surrey, Guildford GU27XH, UK; Section of Sport, Health & Exercise Sciences, Department of Nutritional Sciences, Faculty of Health and Medical Sciences, University of Surrey, Guildford GU27XH, UK.
J Sport Health Sci. 2025 Jun 3:101063. doi: 10.1016/j.jshs.2025.101063.
For patients with locally advanced esophagogastric cancer, the standard of care in the UK is neoadjuvant chemotherapy (NAC) followed by surgery. Prehabilitation exercise training can improve physiological function and fitness. If such improvements translate to increased immune infiltration of tumors, exercise could be prescribed as an immune adjuvant during NAC and potentially improve clinical outcomes. As such, we aimed to determine whether prehabilitation increased tumor infiltrating lymphocytes (TILs).
We assessed 22 patients with locally advanced esophageal cancer on a randomized control trial comparing 16 weeks of low-to-moderate intensity twice weekly supervised and thrice weekly home-based exercise (Prehab: n = 11) to no prehabilitation (Control: n = 11). Our primary outcome was to compare tumor-immune responses between Controls and Prehab. We compared formalin-fixed paraffin-embedded tumors by high-resolution multispectral immunohistochemistry (mIHC) and NanoString spatial transcriptomics. Secondarily, we determined relationships between changes in fitness to the exercise training and tumor-immune measures. Specifically, we assessed percentage changes in peak cardiorespiratory fitness as assessed by peak oxygen uptake (V̇O) before NAC (Baseline) and after 8 weeks of NAC (Post-NAC), and changes between Baseline and following 8 weeks of NAC recovery before surgery (Pre-surgery) and correlated changes in fitness with tumor-immune responses. Finally, as an exploratory aim, we assessed clinical outcomes between groups, including survival, therapy tolerance, and tumor regrading.
We observed that Prehab had significantly more CD8+ lymphocytes in their tumors (mean difference (diff.) = 1.79, 95% confidence interval (95% CI): 0.76‒2.82, p < 0.001) and their stroma (mean diff. = 1.59, 95% CI: 0.66‒2.52, p < 0.001) than the Controls. When normalized to total numbers of TILs, Prehab had higher levels of CD56+ NK cells (median diff. = 0.87, 95% CI: 0.25‒2.18), p = 0.0274), consisting primarily of CD56 NK cells (median diff. = 0.48, 95% CI: 0.03‒2.53), p = 0.0464). Evaluation of the presence and localization of tumor-associated tertiary lymphoid structures (TLS) in the esophageal tumors revealed that most TLS were in the peritumoral regions. Prehab had a higher TLS cell density (cells/mm; median diff. = 18,959, 95% CI: 13,518‒22,635), p < 0.001) and more clearly defined germinal centers indicative of mature TLS visually. We observed that Prehab maintained their V̇O during NAC while the Controls' V̇O reduced by 9.0% ± 10.2% (mean ± SD) (Post-NAC: p = 0.018). Pre-surgery, Prehab V̇O was a clinically meaningful 3.27 ± 1.31 mL/kg/min higher than Controls (p = 0.022). Between Baseline and Post-NAC, where the Prehab maintained V̇O better than Controls, there were significant positive associations with percentage changes in V̇O and the frequencies of CD8+ TILs (r = 0.531, p = 0.016), programmed death-ligand 1+ (PDL1+) cells (r = 0.566, p = 0.009), and granzyme B+ (GrzB+) TILs (r = 0.592, p = 0.007). Similar relationships were observed for changes in V̇O from Baseline to Pre-Surgery only in the Prehab group. We observed no differences between groups regarding clinical outcomes such as survival, therapy tolerance, or tumor regrading.
We show that exercise training during NAC, which promotes higher levels of cardiorespiratory fitness than no exercise, is associated with increased frequencies of TILs and maturity of TLS. These data suggest that exercise during NAC enhances the immune system. Future studies are warranted to understand the clinical consequences of this.
对于局部晚期食管癌患者,英国的标准治疗方案是新辅助化疗(NAC)后进行手术。术前康复运动训练可改善生理功能和健康状况。如果这些改善能转化为肿瘤免疫浸润增加,那么在NAC期间可将运动作为免疫佐剂开具处方,有可能改善临床结局。因此,我们旨在确定术前康复是否会增加肿瘤浸润淋巴细胞(TILs)。
我们在一项随机对照试验中评估了22例局部晚期食管癌患者,将16周的低至中等强度运动(每周两次监督训练和每周三次居家训练,即术前康复组:n = 11)与不进行术前康复(对照组:n = 11)进行比较。我们的主要结局是比较对照组和术前康复组之间的肿瘤免疫反应。我们通过高分辨率多光谱免疫组织化学(mIHC)和NanoString空间转录组学对福尔马林固定石蜡包埋肿瘤进行比较。其次,我们确定运动训练后身体适应性变化与肿瘤免疫指标之间的关系。具体而言,我们评估了NAC前(基线)和NAC 8周后(NAC后)通过峰值摄氧量(V̇O)评估的峰值心肺适应性的百分比变化,以及基线与术前NAC恢复8周后(术前)之间的变化,并将适应性变化与肿瘤免疫反应相关联。最后,作为探索性目的,我们评估了两组之间的临床结局,包括生存率、治疗耐受性和肿瘤分级。
我们观察到,术前康复组肿瘤中的CD8 +淋巴细胞(平均差异(diff.)= 1.79,95%置信区间(95%CI):0.76 - 2.82,p < 0.001)及其基质中的CD8 +淋巴细胞(平均差异 = 1.59,95%CI:0.66 - 2.52,p < 0.001)均显著多于对照组。当以TILs总数进行标准化时,术前康复组的CD56 + NK细胞水平更高(中位数差异 = 0.87,95%CI:0.25 - 2.18,p = 0.0274),主要由CD56 NK细胞组成(中位数差异 = 0.48,95%CI:0.03 - 2.53,p = 0.0464)。对食管肿瘤中肿瘤相关三级淋巴结构(TLS)的存在和定位进行评估发现,大多数TLS位于肿瘤周围区域。术前康复组的TLS细胞密度更高(细胞/mm;中位数差异 = 18,959,95%CI:13,518 - 22,635,p < 0.001),并且在视觉上有更清晰的生发中心,表明TLS成熟。我们观察到术前康复组在NAC期间维持了其V̇O,而对照组的V̇O下降了9.0%±10.2%(平均值±标准差)(NAC后:p = 0.018)。术前,术前康复组的V̇O比对照组高3.27±1.31 mL/kg/min,具有临床意义(p = 0.022)。在基线和NAC后之间,术前康复组比对照组更好地维持了V̇O,V̇O的百分比变化与CD8 + TILs频率(r = 0.531,p = 0.016)、程序性死亡配体1 +(PDL1 +)细胞(r = 0.566,p = 0.009)和颗粒酶B +(GrzB +)TILs频率(r = 0.592,p = 0.007)之间存在显著正相关。仅在术前康复组中观察到从基线到术前V̇O变化的类似关系。我们观察到两组在生存率、治疗耐受性或肿瘤分级等临床结局方面没有差异。
我们表明,在NAC期间进行运动训练,与不运动相比可促进更高水平的心 肺适应性,这与TILs频率增加和TLS成熟有关。这些数据表明,NAC期间的运动可增强免疫系统。有必要进行进一步研究以了解其临床后果。
