JNK Kinase regulates cachexia like syndrome in scribble knockdown tumor model of Drosophila melanogaster.

Cachexia and systemic organ wasting are metabolic syndrome often associated with cancer. However, the exact mechanism of cancer associated cachexia like syndrome still remain elusive. In this study, we utilized a scribble (scrib) knockdown induced hindgut tumor to investigate the role of JNK kinase in cachexia like syndrome. Scrib , a cell polarity regulator, also acts as a tumor suppressor gene. Its loss and mis-localization are reported in various type of malignant cancer-like breast, colon and prostate cancer. The scrib knockdown flies exhibited male lethality, reduced life span, systemic organ wasting and increased pJNK level in hindgut of female flies. Interestingly, knocking down of human JNK Kinase analogue, hep , in scrib knockdown background in hindgut leads to restoration of loss of scrib mediated lethality and systemic organ wasting. Our data showed that scrib loss in hindgut is capable of inducing cancer associated cachexia like syndrome. Here, we firstly report that blocking the JNK signaling pathway effectively rescued the cancer cachexia induced by scrib knockdown, along with its associated gut barrier disruption. These findings have significantly advanced our understanding of cancer cachexia and have potential implications for the development of therapeutic strategies. However, more research is needed to fully understand the complex mechanisms underlying this condition. [Display omitted] • Scrib knockdown (KD) in hindgut leads to systemic organ wasting and increased pJNK levels. • Study first time uncovers a significant link between Scrib cancer-associated cachexia and JNK pathway. • JNK knockdown in loss of scribble background restores normal physiology and alleviates cancer-associated cachexia. • Role of JNK signaling in cachexia opens up potential new avenues for therapeutic interventions in cancer treatment. [ABSTRACT FROM AUTHOR]