Immunosuppressant Collection

Cortisol crystals, light micrograph
Cortisol crystals, polarised light micrograph. Cortisol is a steroid hormone produced by the adrenal glands, which sit on top of the kidneys

Cortisol crystals, light micrograph C015 / 6786
Cortisol crystals, polarised light micrograph. Cortisol is a steroid hormone produced by the adrenal glands, which sit on top of the kidneys

Leflunomide arthritis drug molecule
Leflunomide, molecular model. This immunosuppressant and anti-inflammatory drug is used to treat rheumatoid and psoriatic arthritis

Prednisone corticosteroid drug molecule
Prednisone, molecular model. This synthetic corticosteroid is used as an immunosuppressant. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white) and oxygen (red)

Cortisol crystals, light micrograph
Cortisol crystals, polarised light micrograph. Cortisol is a steroid hormone produced by the adrenal glands, which sit on top of the kidneys

Beclometasone crystals, SEM
Beclometasone crystals. Coloured scanning electron micrograph (SEM) of crystals of the corticosteroid beclometasone dipropionate (previously beclomethasone dipropionate)

Cyclosporin drug molecule
Cyclosporin. Computer graphic showing a molecule of the drug cyclosporin. The cyclic (circular) structure of this hydrophobic peptide molecule is seen here

Tacrolimus drug molecule
Tacrolimus immunosuppressant drug molecule. Computer model of a molecule of the immunosuppressant drug tacrolimus. Atoms are represented as spheres and are colour-coded; carbon (gold)

Cortisol hormone, molecular model
Cortisol hormone molecule. Computer model of a molecule of the steroid hormone cortisol. Atoms are represented as spheres and are colour-coded: carbon (grey), hydrogen (white) and oxygen (red)

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"Unlocking the Power of Immunosuppressants: A Closer Look at Cortisol Crystals and Drug Molecules" Immunosuppressants play a crucial role in medical science, helping to regulate the immune system and prevent it from attacking healthy cells. In this captivating light micrograph, we observe the mesmerizing beauty of cortisol crystals, representing one such immunosuppressant. Cortisol, a hormone produced by our adrenal glands, is known for its anti-inflammatory properties. These intricate crystals are formed when cortisol molecules align themselves in an ordered pattern under specific conditions. Through advanced imaging techniques like SEM (scanning electron microscopy), scientists have been able to capture these beclometasone crystals in stunning detail. But cortisol is not alone in its immunosuppressive prowess. Leflunomide arthritis drug molecule and prednisone corticosteroid drug molecule are two other powerful compounds that help control autoimmune diseases like rheumatoid arthritis. Their molecular structures hold the key to their therapeutic effects. Intriguingly, microbes also contribute to the production of immunosuppressants through fermentation processes. The microbe fermentation unit depicted here showcases how nature's tiny helpers can generate valuable compounds that aid in suppressing immune responses. As we delve deeper into understanding immunosuppression mechanisms, we encounter more remarkable molecules like cyclosporin and tacrolimus drugs. These complex structures act on specific targets within our immune system to prevent rejection after organ transplantation or treat autoimmune disorders effectively. The significance of these discoveries cannot be overstated as they offer hope for patients battling chronic inflammatory conditions or undergoing life-saving transplants. By unraveling the secrets hidden within cortisol crystals and various drug molecules, researchers continue their quest towards developing safer and more effective immunosuppressive therapies. So let us marvel at these images – whether it's the enchanting beauty of cortisol crystals captured under a light microscope or the intricate details of drug molecules.