Honeybees (Apis mellifera) are eusocial insects reproductive division of labor. In addition to the division in the reproductive class, worker bees can also be divided into house-keeping bees and forager bees based on the task they carry out. The division of labor is achieved by workers changing tasks as they aged. The newly-emerged worker bees spend their first two to three weeks in the hive. After this period, they will start foraging. Honey bees can be considered as superorganisms because specialized division of labor within hives is essential for their survival. Manipulation of this highly specialized division may help honey bees fight against survival pressure. When honey bees are infected by virus, they start their first forage at an earlier time. Our previous research demonstrates that the adenosine metabolism of honey bees infected with deformed wing virus was greatly different from that of the healthy ones. Energy was transferred from brain to immune system in DWV-infected honeybees and this altered energy transfer subsequently affected several physiological mechanisms. It is not yet known whether DWV infection would affect the division of labor in worker bees. The hormones and genes related to the division of labor in DWV-infected honeybees were measured to elucidate changes in energy metabolism through ATP, adenosine, and hemolymph sugar concentration of worker bees under adversity. As well as analyzing the changes in division of labor-related hormones synthesis genes. After DWV infection, honey bees experience a decrease in brain energy consumption, a reduction in the expression of genes related to carbohydrate metabolism, and an earlier activation of genes associated with juvenile hormone, resulting in an increase in juvenile hormone concentration. The hormonal change accelerates the transition of housekeeping bees into forager bees. This study highlights the impact of viral infection on honey bee energy metabolism, leading to changes in division of labor. It elucidates the alterations