542 research outputs found
BuffGraph: Enhancing Class-Imbalanced Node Classification via Buffer Nodes
Class imbalance in graph-structured data, where minor classes are
significantly underrepresented, poses a critical challenge for Graph Neural
Networks (GNNs). To address this challenge, existing studies generally generate
new minority nodes and edges connecting new nodes to the original graph to make
classes balanced. However, they do not solve the problem that majority classes
still propagate information to minority nodes by edges in the original graph
which introduces bias towards majority classes. To address this, we introduce
BuffGraph, which inserts buffer nodes into the graph, modulating the impact of
majority classes to improve minor class representation. Our extensive
experiments across diverse real-world datasets empirically demonstrate that
BuffGraph outperforms existing baseline methods in class-imbalanced node
classification in both natural settings and imbalanced settings. Code is
available at https://anonymous.4open.science/r/BuffGraph-730A
Endurance training slows breast tumor growth in mice by suppressing Treg cells recruitment to tumors
BACKGROUND:
Aerobic exercise has been shown to slow tumor progression in rodents and humans, but the mechanisms behind this effect are still unclear. Here we show that aerobic exercise in the form of chronic endurance training suppresses tumor recruitment of FoxP3+ Treg cells thus enhancing antitumor immune efficiency.
METHODS:
Adult wild-type and athymic BALB/c female mice were endurance-trained for 8 weeks. Circulating leukocytes as well as muscle and liver mtDNA copy number were compared to aged-matched concurrent sedentary controls to establish systemic effects. 4 T1 murine mammary tumor cells were injected subcutaneously to the 4th mammary pad at the end of the training period. Tumor growth and survival rates were compared, together with antitumor immune response.
RESULTS:
Exercised wild-type had 17% slower growth rate, 24% longer survival, and 2-fold tumor-CD+ 8/FoxP3+ ratio than sedentary controls. Exercised athymic BALB/c females showed no difference in tumor growth or survival rates when compared to sedentary controls.
CONCLUSIONS:
Cytotoxic T cells are a significant factor in endurance exercise-induced suppression of tumor growth. Endurance exercise enhances antitumor immune efficacy by increasing intratumoral CD8+/FoxP3+ ratio
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