When the Kidney Reacts to Nutritional Changes

Diet is a major disease modifier of hypertension. The Dietary Approaches to Stop Hypertension diet (DASH) is endorsed nationally and abroad to treat hypertension (HTN) in adults. In the original DASH study, the effect of the combination diet consisting of low salt, high potassium, and low-fat dairy products, was more pronounced in hypertensives and minorities. The magnitude of the effect on blood pressure (BP) of the combination diet was similar to that observed with single drug antihypertensive therapy.

Americans typically consume 3400 mg sodium daily, due to high intakes of processed foods, frequent eating outside the home, and consumption of packaged meals and salty snack foods. Foods consumed outside of the home provide 34% of the sodium intake of Americans.

It is not known exactly how the DASH diet effects its lowering of blood pressure. One of the proposed mechanism of the effect of the DASH diet relies on two components - sodium reduction and potassium supplementation.

In response to potassium supplementation such as in DASH diet, we would expect less sodium to be reabsorbed.

Over the years, adherence to DASH diet has been evaluated using questionnaires. Methods for monitoring sodium intake remain inadequate and flawed. Dietary recall is not reliable, and many patients truly do not realize, and consequently under report, the amount of sodium they consume. The most widely employed method of assessing dietary adherence, the 24-h urine collection to measure sodium excretion, is cumbersome and inconvenient. Evaluating urine sodium to creatinine ratio was validated as a surrogate measure to 24-hour urine collection .

Exosomes: most of the data regarding tissue activity of different channels in response to stimuli, comes from animal studies. Translation of the murine experimental findings to a human setting is difficult and has mostly been inferred using plasma and urinary electrolyte levels as a proxy for renal tubular transporter activity. Transporter proteins from all tubular segments are excreted into the urine in extracellular vesicles. These vesicles therefore provide a non-invasive liquid biopsy access to tubular epithelial cells that could potentially inform on physiological regulation of transporter activity in human kidneys . The proteins that are present in urine are a major area of investigation for proteomics researchers. In normal urine, typically half of the proteins are soluble proteins (49%), and the remaining 48% are sediment precipitated with low-speed centrifugation, and exosomes (3%). All exosomes contain a few common protein components. The cytosolic proteins present on exosomes include annexins, adhesion molecules, proteins that participate in vesicle formation and trafficking and metabolic enzymes. Analysis of urine exosomes can enhance the detectability of relatively low-abundant proteins that have potential pathophysiological significance, and so have become one of the newer trends in the field of urine-biomarker discovery .

Volunteers with hypertension stage 1, but otherwise healthy, will complete a screening visit, then be admitted to the In-Patient Unit for fourteen (14) days. Participants will be admitted for 5 days during the week and then go on pass for 2 weekend days each week with packed DASH diet meals. During hospitalization blood and urine samples will be collected daily, as well as clinical parameters such as blood pressure.