Accurately segmenting individual cells or nuclei is a crucial step in the digital pathological image analysis procedure. In recent years, it has yielded substantial progress attributed to the advances in deep neural networks. However, traditional deep learning networks cannot smoothly recognize the staining modalities never seen. Besides, in the medical or bio-scientific domain, collecting tremendous annotated data is time-consuming and labor-intensive. To address the challenges, we present a class-agnostic few-shot learning for the digital pathological image instance segmentation: given a target image from any staining modality, our model can individually segment the cells or nuclei within target in a class-agnostic manner by providing one or very few reference images as guidance. We design a multi-scale co-attention mechanism and a class-agnostic relation R-CNN to leverage the correlated multi-scale features and utilize the deformable convolution to capture the geometric structures. Moreover, we establish a new few-shot instance segmentation dataset by widely gathering 11 public digital pathological image datasets. The experimental results demonstrate the superiority of our method in comparison with the state-of-the-art. Furthermore, our approach closes the performance gap between few-shot learning model trained with partial data and the Oracle trained with all fully labelled data. Such convincing evidences reveal the advantage of our approach that can conduct the cell instance segmentation with very few annotations to mitigate the difficulty of the manual annotation.