Proteolytic Enzymes (Proteases)
Other names for Proteolytic Enzymes (Proteases)
acid active protease
acid function protease
acid fungal protease
acid protease
acid protease, fungal
acid proteases
acid stable protease
acid-stable protease
acid-stable protease 3.0
alkaline protease
alkaline protease, bacterial
alkaline proteases
aminogen
aminogen fungal proteases
aminogen(r) enzyme
aminogen(tm) enzyme
bacterially-derived patented proteases
bacterial protease
biocore dpp-iv
biocore(r) dpp-iv
biocore recovery(tm) enzyme blend
biocore(r) pro
caso-glut sp 500
dpp iv protease
exoprotease
exoproteases
fungal protease
fungal proteases
gluten protease
gluten specific bacterial protease
nattozimes
nattozimes protease
nattozimes(r)
neprinol protease blend
neut. bacterial protease
neutral bacterial protease
neutral bacteria protease
neutral protease
neutral protease, bacterial
opti-ph protease
opti-ph protease enzymes
patented protease
physioprotease
physioprotease(tm)
prohydrolase
prohydrolase protease blend
protease
protease 1
protease 2
protease 3
protease 3.0
protease 4.5
protease 6
protease 6.0
protease 6 concentrate
protease 7
protease 800
protease a 4.5
protease-acid stable
protease activity
protease am
protease aminogen
protease a-s
protease, bacterial
protease blend
protease blend i,ii,iii
protease complex
protease concentrate
protease enzyme
protease enzyme blend
protease enzymes
protease fcc
protease fnp
protease, fungal
protease i
protease ii
protease ii, fungal
protease iii
protease iv
protease, pancreatic
protease/peptidase complex
protease/peptidase ph 3-9
protease peptone 5
protease (ph 2-3)
protease (ph 3-6)
protease (ph 6-9)
protease, plant
protease, powder
protease s
proteases
proteases 4.5, 6.0, 7.0
proteases, fungal
proteases i
proteases ii
proteases iii
proteases iv
protease sp
protease sp plus blend
protease s, serrapeptase
proteases v
protease usp
protease v
protein-digesting enzyme blend
semi-alkaline protease
serrazimes protease
serrazimes(r)
strong acid protease
vegetarian protease enzymes
vegpeptase
vegpeptase 2000
Synopsis of Proteolytic Enzymes (Proteases)
History
Proteolytic enzymes, also known as proteases, have a rich history of use in traditional medicinal systems across the globe. These enzymes, which break down proteins into smaller peptides and amino acids, have been harnessed for their therapeutic benefits for centuries. In ancient Asian cultures, especially in China and India, natural sources of proteolytic enzymes such as papaya (containing papain) and pineapple (containing bromelain) were incorporated into herbal remedies to aid digestion, reduce inflammation, and promote wound healing. In Ayurvedic medicine, papaya was recommended to ease digestive complaints and support the body's natural healing processes.
In folk remedies throughout South America and the Pacific Islands, protease-rich plant extracts were applied to bruises, sprains, and wounds to accelerate recovery and minimize discomfort. These traditional uses have been substantiated by modern research, which highlights the enzymes' ability to reduce swelling, improve circulation, and support immune function.
Proteolytic enzymes are frequently combined with other herbs in holistic formulas to enhance their efficacy. For example, bromelain is often paired with turmeric or ginger to create potent anti-inflammatory blends, capitalizing on the synergistic effects of these natural compounds. Such combinations are widely used to support joint health, improve digestion, and promote overall wellness. The integration of proteolytic enzymes into herbal mixtures exemplifies their versatility and enduring value in both traditional and contemporary natural health practices. Their remarkable ability to assist in healing, reduce inflammation, and optimize nutrient absorption continues to make them a cornerstone ingredient in nutritional and herbal products worldwide.
Traditional and scientific validation
Proteolytic enzymes, commonly known as proteases, are enzymes that break down proteins into smaller peptides and amino acids. Historically, these enzymes have been derived from both animal (such as pancreatin from pigs) and plant sources (such as bromelain from pineapples and papain from papaya), and have been utilized in various traditional medicine systems for centuries. For example, bromelain has long been used in South American folk medicine to reduce inflammation and aid digestion.
Scientific research has investigated the potential benefits of proteolytic enzymes for a range of health applications. Clinical studies suggest that proteases may support digestive health by helping to break down dietary proteins, especially in individuals with pancreatic insufficiency or digestive disorders. Some studies have also examined their role in reducing inflammation and pain, particularly in conditions such as sports injuries and arthritis. For example, research on bromelain and papain has shown promising anti-inflammatory and analgesic effects, and certain enzyme combinations have been reported to assist in post-surgical recovery by reducing swelling and bruising.
Despite these encouraging findings, the evidence base is not yet conclusive. Many clinical trials have been small or of varying methodological quality, and results have sometimes been inconsistent. As such, more robust, large-scale research is needed to fully validate the effectiveness and safety of proteolytic enzymes as nutritional supplements. Nevertheless, their historical use and emerging scientific evidence highlight their potential as supportive agents for digestive and inflammatory conditions.
Proteolytic Enzymes (Proteases) is used for these health conditions
Arthritis (Scientific)
Bruises (healing) (Scientific)
Cancer Treatment (reducing side effects) (Scientific)
Cuts (Scientific)
Edema (Scientific)
Inflammation (Scientific)
Injuries (Scientific)
Pain (general remedies for) (Scientific)
Scars / Scar Tissue (Scientific)
Scratches and Abrasions (Scientific)
Surgery (healing from) (Scientific)
Tendonitis (Scientific)
Wounds and Sores (Scientific)
Proteolytic Enzymes (Proteases) is used to support these body systems
Blood (Scientific)
Circulatory System (Scientific)
Digestive System (Scientific)
Gastrointestinal Tract (Scientific)
Immune System (Scientific)
Intestinal System (Scientific)
Joints (Scientific)
Muscles (Scientific)
Small Intestines (Scientific)