Lv Jingwei, Li Kexin, Wang Yike, Xu Junlin, Meng Yajie, Cui Feifei, Wei Leyi, Zhang Qingchen, Zhang Zilong
School of Computer Science and Technology, Hainan University, Haikou, 570228, China.
School of Computer Science and Technology, Wuhan University of Science and Technology, Wuhan, 430081, Hubei, China.
Mol Divers. 2025 Sep 13. doi: 10.1007/s11030-025-11352-x.
Cancer remains a major global health challenge, as conventional chemotherapy often causes extensive damage to healthy cells and leads to severe side effects. Anticancer peptides (ACPs) have emerged as a promising therapeutic alternative, capable of selectively targeting and eliminating cancer cells while improving patient quality of life and treatment outcomes. Nevertheless, identifying ACPs through traditional biological experiments is both labor-intensive and time-consuming. To address this limitation, we developed ACP-EPC, a deep learning framework which predicts ACPs directly from protein sequences. ACP-EPC integrates contextual representations from Evolutionary Scale Modeling 2 (ESM-2) with handcrafted physicochemical descriptors and employs a Cross-Attention mechanism for multimodal feature fusion. The model was rigorously evaluated using tenfold cross-validation and two test sets, ACP135 and ACP99, achieving accuracy of 0.935 and 0.984, respectively. These results substantially outperform existing models, underscoring the advantages of combining diverse feature representations. To promote accessibility, we have also deployed ACP-EPC as a publicly available web server at http://www.bioai-lab.com/ACP-EPC .
癌症仍然是一项重大的全球健康挑战,因为传统化疗常常会对健康细胞造成广泛损害并导致严重的副作用。抗癌肽(ACP)已成为一种有前景的治疗选择,能够选择性地靶向并消除癌细胞,同时提高患者的生活质量和治疗效果。然而,通过传统生物学实验来鉴定抗癌肽既耗费人力又耗时。为解决这一局限,我们开发了ACP-EPC,这是一个深度学习框架,可直接从蛋白质序列预测抗癌肽。ACP-EPC将来自进化尺度建模2(ESM-2)的上下文表示与手工制作的物理化学描述符相结合,并采用交叉注意力机制进行多模态特征融合。该模型使用十折交叉验证以及两个测试集ACP135和ACP99进行了严格评估,准确率分别达到0.935和0.984。这些结果显著优于现有模型,凸显了组合多种特征表示的优势。为了便于使用,我们还将ACP-EPC作为一个公开可用的网络服务器部署在了http://www.bioai-lab.com/ACP-EPC 。
