Diseases Involving Proteins
As you may recall, moderation refers to having the proper amount of a nutrient, having neither too little nor too much. A healthy diet incorporates all nutrients in moderation. The Acceptable Macronutrient Distribution Range (AMDR) for protein for adults is between 10 and 35 percent of kilocalories, which is a reasonably wide range. In this section, we will discuss the health consequences of protein intake that is either too low to support life’s processes or too high, thereby increasing the risk of chronic disease. In the last section of this chapter, we will discuss in more detail the personal choices you can make to optimize your health by consuming the right amount of high-quality protein.
Health Consequences of Protein Deficiency
Although severe protein deficiency is rare in the developed world, it is a leading cause of death in children in many poor, underdeveloped countries. There are two primary syndromes associated with protein deficiencies: Kwashiorkor and Marasmus. Kwashiorkor affects millions of children worldwide. When it was first described in 1935, more than 90 percent of children with Kwashiorkor died. Although the associated mortality is slightly lower now, most children still die after the initiation of treatment. The name Kwashiorkor comes from a language in Ghana and means “rejected one.” The syndrome was named because it occurred most commonly in children who had recently been weaned from the breast, usually because another child had just been born. Subsequently, the child was fed watery porridge made from low-protein grains, which accounts for the low protein intake. Kwashiorkor is characterized by swelling (edema) of the feet and abdomen, poor skin health, growth retardation, low muscle mass, and liver malfunction. Recall that fluid balance is one of a protein’s functional roles in the body. Diets extremely low in protein do not provide enough amino acids for the synthesis of albumin. One of the functions of albumin is to hold water in the blood vessels, so having lower concentrations of blood albumin results in water moving out of the blood vessels and into tissues, causing swelling. The primary symptoms of Kwashiorkor include not only swelling, but also diarrhea, fatigue, peeling skin, and irritability. Severe protein deficiency and other micronutrient deficiencies, such as folate (vitamin B9), iodine, iron, and vitamin C, all contribute to the many health manifestations of this syndrome.
(Source: Wikimedia Commons, Dr. Lyle Conrad, Public Domain)
Kwashiorkor is a disease brought on by a severe dietary protein deficiency. Symptoms include edema of legs and feet, light-colored, thinning hair, anemia, a pot-belly, and shiny skin.
Children and adults with marasmus neither have enough protein in their diets nor do they take in enough calories. Marasmus affects mostly children below the age of one in poor countries. Body weights of children with Marasmus may be up to 80 percent less than that of a normal child of the same age. Marasmus is a Greek word, meaning “starvation.” The syndrome affects more than fifty million children under age five worldwide. An extreme emaciated appearance, poor skin health, and growth retardation characterize it. The symptoms are acute fatigue, hunger, and diarrhea.
Japanese nurse with dependent children having typical appearance of malnutrition, New Bilibid Prison, September-October 1945. (Source: Wikimedia Commons, Unknown, Public Domain)
Kwashiorkor and marasmus often coexist as a combined syndrome termed marasmic kwashiorkor. Children with the combined syndrome have variable amounts of edema and the characterizations and symptoms of marasmus. Although organ system function is compromised by undernutrition, the ultimate cause of death is usually infection. Undernutrition is intricately linked with suppression of the immune system at multiple levels, so undernourished children commonly die from severe diarrhea and/or pneumonia resulting from bacterial or viral infection. The United Nations Children’s Fund (UNICEF), the most prominent agency with the mission of changing the world to improve children’s lives, reports that undernutrition causes at least one-third of deaths of young children. As of 2008, the prevalence of children under age five who were underweight was 26 percent. The percentage of underweight children has declined less than 5 percent in the last eighteen years despite the Millennium Development Goal of halving the proportion of people who suffer from hunger by the year 2015.
(Source: University of Hawaii @ Manoa, CC-BY-NC-SA)
Health Consequences of Too Much Protein in the Diet
An explicit definition of a high-protein diet has not yet been developed by the Food and Nutrition Board of the Institute of Medicine (IOM). Still, typically, diets high in protein are considered those that derive more than 30 percent of calories from protein. Many people follow high-protein diets because marketers tout protein’s ability to stimulate weight loss. Following high-protein diets indeed increases weight loss in some people. It is important to note that weight loss does not always equate to fat loss. Some of the lost weight is due to fluid, glycogen, and skeletal muscle mass loss. In addition, the number of individuals who remain on this type of diet is low, and many people try the diet and stop regaining the weight they had lost. There is a scientific hypothesis that there may be health consequences of remaining on high-protein diets for the long term, and clinical trials are ongoing or scheduled to examine this hypothesis further. Observational studies conducted in the general population suggest diets high in animal protein, specifically those in which the primary protein source is red meat, are linked to a higher risk for kidney stones, kidney disease, liver malfunction, colorectal cancer, and osteoporosis. However, diets that include lots of red meat are also high in saturated fat and cholesterol and sometimes linked to unhealthy lifestyles, so it is difficult to conclude that the high protein content is the culprit.
High protein diets appear only to increase the progression of kidney disease and liver malfunction in people who already have kidney or liver malfunction, and not to cause these problems. However, the prevalence of kidney disorders is relatively high and underdiagnosed. Regarding colon cancer, an assessment of more than ten studies performed around the world published in the June 2011 issue of PLoS purports that a high intake of red meat and processed meat is associated with a significant increase in colon cancer risk.[1]Although there are a few ideas, the exact mechanism of how proteins, specifically those in red and processed meats, cause colon cancer is unknown and requires further study.
Some scientists hypothesize that high-protein diets may accelerate bone-tissue loss because under some conditions the acids in protein block absorption of calcium in the gut, and, once in the blood, amino acids promote calcium loss from bone; however even these effects have not been consistently observed in scientific studies. One study suggests that excess protein consumption can have significant adverse effects on bone, especially if the protein consumed increases renal acid load.[2]
Other studies have not produced consistent results. The scientific data on high protein diets and increased risk for osteoporosis remains highly controversial and more research is needed to come to any conclusions about the association between the two.[3]
High-protein diets can restrict other essential nutrients. The American Heart Association (AHA) states that “High-protein diets are not recommended because they restrict healthful foods that provide essential nutrients and do not provide the variety of foods needed to adequately meet nutritional needs. Individuals who follow these diets are therefore at risk for compromised vitamin and mineral intake, as well as potential cardiac, renal, bone, and liver abnormalities overall.”[4]
As with any nutrient, protein must be eaten in proper amounts. Moderation and variety are key strategies to achieving a healthy diet and need to be considered when optimizing protein intake. While the scientific community continues its debate about the particulars regarding the health consequences of too much protein in the diet, you may be wondering just how much protein you should consume to be healthy. Read on to find out more about calculating your dietary protein recommendations, dietary protein sources, and personal choices about protein.
Learning Activities
Technology Note: The second edition of the Human Nutrition Open Educational Resource (OER) textbook features interactive learning activities. These activities are available in the web-based textbook and are not in downloadable versions (EPUB, Digital PDF, Print_PDF, or Open Document).
Learning activities may be used across various mobile devices; however, for the best user experience, it is strongly recommended that users complete these activities using a desktop or laptop computer.
- Chan, D.S., Lau, R., et al. (2011). Red and Processed Meat and Colorectal Cancer Incidence: Meta-Analysis of Prospective Studies. PLoS One, 6(6), e20456. http://dx.plos.org/10.1371/journal.pone.0020456. Accessed August 12, 2025. ↵
- Barzel, U.S. and Massey, L.K. (1998). Excess Dietary Protein Can Adversely Affect Bone. Journal of Nutrition, 128(6), 1051–53. http://jn.nutrition.org/content/128/6/1051.long. Accessed August 12, 2025. ↵
- St. Jeor S.T., et al.(2001). Dietary Protein and Weight Reduction: A Statement for Healthcare Professionals from the Nutrition Committee of the Council on Nutrition, Physical Activity, and Metabolism of the American Heart Association. Circulation, 104(15): 1869–74. https://doi.org/10.1161/hc4001.096152. Accessed August 12, 2025. ↵
- St. Jeor S.T., et al.(2001). Dietary Protein and Weight Reduction: A Statement for Healthcare Professionals from the Nutrition Committee of the Council on Nutrition, Physical Activity, and Metabolism of the American Heart Association. Circulation, 104(15): 1869–74. https://doi.org/10.1161/hc4001.096152. Accessed August 12, 2025. ↵
Essential nutrients that are needed by the body in large amounts
(Acceptable Macronutrient Distribution Ranges) A range of intakes for carbohydrates, fat, and protein expressed as a percentage of total energy intake for normal healthy individuals.
A form of protein-energy malnutrition that most commonly affects young children between the ages of 2 and 5 years old.
A wasting condition caused by a chronic lack of protein-energy in the diet.
The accumulation of fluid within tissues, making them soft and spongy with a bloated appearance.
The molecules from which proteins are built, each protein being composed of a specific sequence of linked amino acids.
A disorder affecting the bones that is characterized as a loss in bone mass, increased bone fragility, and increased risk of fractures.
