Water-soluble Information and Courses from MediaLab, Inc.

Many lipophilic substances, including fat-soluble vitamins, cholesterol, and triglycerides are essential for life. The body needs to be able to absorb and transport these substances. However, lipophilic substances are not water-soluble, and, since blood is aqueous, this presents a challenge. The body addresses this need by using 'carriers' which can bind or sequester lipophilic molecules to aqueous 'vehicles' and thus transport them through the aqueous environment of the blood. Small lipid-soluble hormone molecules like estrogen, testosterone or cortisone are carried through the blood by binding to carrier proteins. Cholesterol and triglycerides are carried through the body in small spherical particles which trap the lipophilic molecules in their centers. These particles have an outer shell that is polar on the surface so that the particles are soluble in the blood but they have a lipophilic core which can hold fat-soluble molecules.

Storage forms normally comprise approximately 27% of total body iron. Stored iron provides a source of iron when physiologic demand is high, such as in blood loss, pregnancy, and periods of rapid growth. Storage compounds include ferritin and hemosiderin. Ferritin is a protein-bound, water-soluble, mobilizable storage compound and is the major source of stored iron. Hemosiderin is a water-insoluble form that is less readily available for use. When the amount of total body iron is relatively low, storage iron consists predominately of ferritin. When iron stores are increased, hemosiderin predominates. Unlike ferritin, hemosiderin stains with the Prussian blue stain (Perls reaction) and may be observed in tissues.

The liver plays a major role in converting lipophilic nonpolar molecules (drug molecules) to more polar, water-soluble forms through a series of enzymatic reactions. Drug molecules can be modified by either phase I or phase ll reactions. Phase I reactions alter chemical structure by oxidation, reduction, or hydrolysis. Phase ll reactions conjugate drugs to create products that are water-soluble.