Trehalose is synthesized via several pathways, primarily through the action of trehalose-phosphate synthase and trehalose-phosphate phosphatase. Its unique bonded structure provides exceptional stability, enabling its protective role in stress response and its use as a protein stabilizer.

Biological Functions

• Acts as a protectant for proteins and membranes during desiccation, heat, and oxidative stress.
• Modulates energy metabolism, notably in insects and fungi.
• Plays a key role in growth, development, and metamorphosis in organisms such as Aedes aegypti.

Medical and Biotechnological Applications

Trehalose is widely used in the stabilization of pharmaceuticals, including monoclonal antibodies and vaccines. Its medical applications include:

• Neuroprotection: Investigated for Huntington's and Alzheimer's diseases through protein stabilization and autophagy enhancement.
• Ophthalmology: Reduces symptoms of dry eye and protects the ocular surface.
• Liver protection: Modulates hepatic stellate cells, helping reduce fibrosis.
• Diabetes and cardiovascular health: Oral consumption may lower inflammation and glycemic biomarkers in diabetic patients.

Clinical Research and Therapeutic Potential

• Reducing oxidative stress.
• Supporting biopreservation in cryomedicine.
• Improving patient outcomes in chronic liver and metabolic diseases.

Trehalose functions as a multifunctional molecule with crucial biological roles and expanding medical applications. Ongoing research continues to clarify its mechanisms and therapeutic potential, particularly for neurodegenerative, metabolic, and fibrotic conditions.