It is one of three principal endopeptidases (enzymes cutting proteins in the middle) in the human digestive system, the other two being chymotrypsin and trypsin. There are also exopeptidases which remove individual amino acids at both ends of proteins (carboxypeptidases produced by the pancreas and aminopeptidases secreted by the small intestine). During the process of digestion, these enzymes, each of which is specialized in severing links between particular types of amino acids, collaborate to break down dietary proteins into their components, i.e., peptides and amino acids, which can be readily absorbed by the small intestine. The cleavage specificity of pepsin is broad, but some amino acids like tyrosine, phenylalanine and tryptophan increase the probability of cleavage.[3]
Pepsin was one of the first enzymes to be discovered, by Theodor Schwann in 1836. Schwann coined its name from the Greek word πέψιςpepsis, meaning "digestion" (from πέπτεινpeptein "to digest").[4][5][6][7] An acidic substance that was able to convert nitrogen-based foods into water-soluble material was determined to be pepsin.[8]
In 1928, it became one of the first enzymes to be crystallized when John H. Northrop crystallized it using dialysis, filtration, and cooling.[9]
In the stomach, gastric chief cells release pepsinogen. This zymogen is activated by hydrochloric acid (HCl), which is released from parietal cells in the stomach lining. The hormone gastrin and the vagus nerve trigger the release of both pepsinogen and HCl from the stomach lining when food is ingested. Hydrochloric acid creates an acidic environment, which allows pepsinogen to unfold and cleave itself in an autocatalytic fashion, thereby generating pepsin (the active form). Pepsin cleaves the 44 amino acids from pepsinogen to create more pepsin.
Pepsinogens are mainly grouped in 5 different groups based on their primary structure: pepsinogen A (also called pepsinogen I), pepsinogen B, progastricsin (also called pepsinogen II and pepsinogen C), prochymosin (also called prorennin) and pepsinogen F (also called pregnancy-associated glycoprotein).[10]
Activity and stability
Pepsin is most active in acidic environments between pH 1.5 to 2.5.[11][12] Accordingly, its primary site of synthesis and activity is in the stomach (pH 1.5 to 2). In humans the concentration of pepsin in the stomach reaches 0.5 – 1 mg/mL.[13][14]
Pepsin is inactive at pH 6.5 and above, however pepsin is not fully denatured or irreversibly inactivated until pH 8.0.[11][15] Therefore, pepsin in solutions of up to pH 8.0 can be reactivated upon re-acidification. The stability of pepsin at high pH has significant implications on disease attributed to laryngopharyngeal reflux. Pepsin remains in the larynx following a gastric reflux event.[16][17] At the mean pH of the laryngopharynx (pH = 6.8) pepsin would be inactive but could be reactivated upon subsequent acid reflux events resulting in damage to local tissues.
Pepsin exhibits a broad cleavage specificity. Pepsin will digest up to 20% of ingested amide bonds.[18] Residues in the P1 and P1' positions[19] are most important in determining cleavage probability. Generally, hydrophobic amino acids at P1 and P1' positions increase cleavage probability. Phenylalanine, leucine and methionine at the P1 position, and phenylalanine, tryptophan and tyrosine at the P1' position result in the highest cleavage probability.[3][18]: 675 Cleavage is disfavoured by positively charged amino acidshistidine, lysine and arginine at the P1 position.[3]
Pepsin is one of the primary causes of mucosal damage during laryngopharyngeal reflux.[20][21] Pepsin remains in the larynx (pH 6.8) following a gastric reflux event.[16][17] While enzymatically inactive in this environment, pepsin would remain stable and could be reactivated upon subsequent acid reflux events.[15] Exposure of laryngeal mucosa to enzymatically active pepsin, but not irreversibly inactivated pepsin or acid, results in reduced expression of protective proteins and thereby increases laryngeal susceptibility to damage.[15][16][17]
Pepsin may also cause mucosal damage during weakly acidic or non-acid gastric reflux. Weak or non-acid reflux is correlated with reflux symptoms and mucosal injury.[22][23][24][25] Under non-acid conditions (neutral pH), pepsin is internalized by cells of the upper airways such as the larynx and hypopharynx by a process known as receptor-mediated endocytosis.[26] The receptor by which pepsin is endocytosed is currently unknown. Upon cellular uptake, pepsin is stored in intracellular vesicles of low pH at which its enzymatic activity would be restored. Pepsin is retained within the cell for up to 24 hours.[27] Such exposure to pepsin at neutral pH and endocyctosis of pepsin causes changes in gene expression associated with inflammation, which underlies signs and symptoms of reflux,[28] and tumor progression.[29] This and other research[30] implicates pepsin in carcinogenesis attributed to gastric reflux.
Pepsin in airway specimens is considered to be a sensitive and specific marker for laryngopharyngeal reflux.[31][32] Research to develop new pepsin-targeted therapeutic and diagnostic tools for gastric reflux is ongoing. A rapid non-invasive pepsin diagnostic called Peptest is now available which determines the presence of pepsin in saliva samples.[33]
Inhibitors
Pepsin may be inhibited by high pH (see Activity and stability) or by inhibitor compounds. Pepstatin is a low molecular weight compound and potently inhibitor specific for acid proteases with an inhibitory dissociation constant (Ki) of about 10−10 M for pepsin. The statyl residue of pepstatin is thought to be responsible for pepstatin inhibition of pepsin; statine is a potential analog of the transition state for catalysis by pepsin and other acid proteases. Pepstatin does not covalently bind pepsin and inhibition of pepsin by pepstatin is therefore reversible.[34] 1-bis(diazoacetyl)-2-phenylethane reversibly inactivates pepsin at pH 5, a reaction which is accelerated by the presence of Cu(II).[35]
Porcine pepsin is inhibited by pepsin inhibitor-3 (PI-3) produced by the large roundworm of pig (Ascaris suum).[36] PI-3 occupies the active site of pepsin using its N-terminal residues and thereby blocks substrate binding. Amino acid residues 1 - 3 (Gln-Phe-Leu) of mature PI-3 bind to P1' - P3' positions of pepsin. The N-terminus of PI-3 in the PI-3:pepsin complex is positioned by hydrogen bonds which form an eight-stranded β-sheet, where three strands are contributed by pepsin and five by PI-3.[36]
A product of protein digestion by pepsin inhibits the reaction.[37][38]
Sucralfate, a drug used to treat stomach ulcers and other pepsin-related conditions, also inhibits pepsin activity.[39]
Applications
Beeman's Pepsin GumAdams Pepsin Tutti Frutti Gum, marketed "For relief of indigestion and dyspepsia"
Commercial pepsin is extracted from the glandular layer of hog stomachs. It is a component of rennet used to curdle milk during the manufacture of cheese. Pepsin is used for a variety of applications in food manufacturing: to modify and provide whipping qualities to soy protein and gelatin,[40] to modify vegetable proteins for use in nondairy snack items, to make precooked cereals into instant hot cereals,[41] and to prepare animal and vegetable protein hydrolysates for use in flavoring foods and beverages. It is used in the leather industry to remove hair and residual tissue from hides and in the recovery of silver from discarded photographic films by digesting the gelatin layer that holds the silver.[42] Pepsin was historically an additive of Beeman's gum brand chewing gum by Dr. Edwin E. Beeman.
Pepsin is commonly used in the preparation of F(ab')2 fragments from antibodies. In some assays, it is preferable to use only the antigen-binding (Fab) portion of the antibody. For these applications, antibodies may be enzymatically digested to produce either an Fab or an F(ab')2 fragment of the antibody. To produce an F(ab')2 fragment, IgG is digested with pepsin, which cleaves the heavy chains near the hinge region.[43] One or more of the disulfide bonds that join the heavy chains in the hinge region are preserved, so the two Fab regions of the antibody remain joined together, yielding a divalent molecule (containing two antibody binding sites), hence the designation F(ab')2. The light chains remain intact and attached to the heavy chain. The Fc fragment is digested into small peptides. Fab fragments are generated by cleavage of IgG with papain instead of pepsin. Papain cleaves IgG above the hinge region containing the disulfide bonds that join the heavy chains, but below the site of the disulfide bond between the light chain and heavy chain. This generates two separate monovalent (containing a single antibody binding site) Fab fragments and an intact Fc fragment. The fragments can be purified by gel filtration, ion exchange, or affinity chromatography.[44]
Fab and F(ab')2 antibody fragments are used in assay systems where the presence of the Fc region may cause problems. In tissues such as lymph nodes or spleen, or in peripheral blood preparations, cells with Fc receptors (macrophages, monocytes, B lymphocytes, and natural killer cells) are present which can bind the Fc region of intact antibodies, causing background staining in areas that do not contain the target antigen. Use of F(ab')2 or Fab fragments ensures that the antibodies are binding to the antigen and not Fc receptors. These fragments may also be desirable for staining cell preparations in the presence of plasma, because they are not able to bind complement, which could lyse the cells. F(ab')2, and to a greater extent Fab, fragments allow more exact localization of the target antigen, i.e., in staining tissue for electron microscopy. The divalency of the F(ab')2 fragment enables it to cross-link antigens, allowing use for precipitation assays, cellular aggregation via surface antigens, or rosetting assays.[45]
Genes
The following three genes encode identical human pepsinogen A enzymes:
^ abcJohnston N, Knight J, Dettmar PW, Lively MO, Koufman J (December 2004). "Pepsin and carbonic anhydrase isoenzyme III as diagnostic markers for laryngopharyngeal reflux disease". The Laryngoscope. 114 (12): 2129–34. doi:10.1097/01.mlg.0000149445.07146.03. PMID15564833. S2CID23773155.
^ abcJohnston N, Dettmar PW, Lively MO, Postma GN, Belafsky PC, Birchall M, Koufman JA (January 2006). "Effect of pepsin on laryngeal stress protein (Sep70, Sep53, and Hsp70) response: role in laryngopharyngeal reflux disease". The Annals of Otology, Rhinology, and Laryngology. 115 (1): 47–58. doi:10.1177/000348940611500108. PMID16466100. S2CID29939465.
^The P1 and P1' positions refer to the amino acid residues immediately next to the bond to be cleaved, on the carboxyl and amino side respectively. See Schechter I, Berger A (September 1968). "On the active site of proteases. 3. Mapping the active site of papain; specific peptide inhibitors of papain". Biochemical and Biophysical Research Communications. 32 (5): 898–902. doi:10.1016/0006-291X(68)90326-4. PMID5682314.
^Lillemoe KD, Johnson LF, Harmon JW (August 1982). "Role of the components of the gastroduodenal contents in experimental acid esophagitis". Surgery. 92 (2): 276–84. PMID6808683.
^Tamhankar AP, Peters JH, Portale G, Hsieh CC, Hagen JA, Bremner CG, DeMeester TR (November 2004). "Omeprazole does not reduce gastroesophageal reflux: new insights using multichannel intraluminal impedance technology". Journal of Gastrointestinal Surgery. 8 (7): 890–7, discussion 897–8. doi:10.1016/j.gassur.2004.08.001. PMID15531244. S2CID6574429.
^Kawamura O, Aslam M, Rittmann T, Hofmann C, Shaker R (June 2004). "Physical and pH properties of gastroesophagopharyngeal refluxate: a 24-hour simultaneous ambulatory impedance and pH monitoring study". The American Journal of Gastroenterology. 99 (6): 1000–10. doi:10.1111/j.1572-0241.2004.30349.x. PMID15180717. S2CID8530885.
^Oelschlager BK, Quiroga E, Isch JA, Cuenca-Abente F (January 2006). "Gastroesophageal and pharyngeal reflux detection using impedance and 24-hour pH monitoring in asymptomatic subjects: defining the normal environment". Journal of Gastrointestinal Surgery. 10 (1): 54–62. doi:10.1016/j.gassur.2005.09.005. PMID16368491. S2CID41176354.
^Johnston N, Wells CW, Blumin JH, Toohill RJ, Merati AL (December 2007). "Receptor-mediated uptake of pepsin by laryngeal epithelial cells". The Annals of Otology, Rhinology, and Laryngology. 116 (12): 934–8. doi:10.1177/000348940711601211. PMID18217514. S2CID32026624.
^Johnston N, Wells CW, Samuels TL, Blumin JH (August 2010). "Rationale for targeting pepsin in the treatment of reflux disease". The Annals of Otology, Rhinology, and Laryngology. 119 (8): 547–58. doi:10.1177/000348941011900808. PMID20860281. S2CID44531943.
^Samloff IM, O'Dell C (August 1985). "Inhibition of peptic activity by sucralfate". The American Journal of Medicine. 79 (2C): 15–8. doi:10.1016/0002-9343(85)90566-2. PMID3929601.
^Kun LY (2006). Microbial Biotechnology: Principles And Applications (2nd ed.). Singapore: World Scientific Publishing Company. ISBN981-256-677-5.
^US patent 2259543, Billings HJ, "Fortified Cereal", published 1938, assigned to Cream of Wheat Corporation
CrawlingSingel oleh Linkin Parkdari album Hybrid TheorySisi-BPapercut (Langsung dari BBC)Dirilis14 November 2000[1]DirekamNew Orleans, Louisiana, 1998-1999Genre Nu metal[2][3] rap metal[4] rap rock[3] Durasi3:29LabelWarner Bros.PenciptaLinkin ParkProduserDon GilmoreKronologi singel Linkin Park One Step Closer (2000) Crawling (2000) Papercut (2001) Video musikCrawling di YouTube Crawling adalah sebuah lagu oleh grup musik rok Amerika Linkin Park. Ini adalah…
Palace in Russia, allegedly built for Vladimir Putin For the documentary about the palace, see Putin's Palace (film). You can help expand this article with text translated from the corresponding article in Russian. (January 2022) Click [show] for important translation instructions. View a machine-translated version of the Russian article. Machine translation, like DeepL or Google Translate, is a useful starting point for translations, but translators must revise errors as necessary and conf…
اضغط هنا للاطلاع على كيفية قراءة التصنيف أرز قصير الأوراق المرتبة التصنيفية نوع التصنيف العلمي النطاق: حقيقيات النوى المملكة: نباتات الشعبة: حقيقيات الأوراق الشعيبة: البذريات الطائفة: الصنوبرانية الطويئفة: الصنوبرانيات الرتبة: الصنوبريات الفصيلة: الصنوبرية الأسرة: الش
Esta página cita fontes, mas que não cobrem todo o conteúdo. Ajude a inserir referências. Conteúdo não verificável pode ser removido.—Encontre fontes: ABW • CAPES • Google (N • L • A) (Julho de 2023) Igreja Matriz de Santo VarãoApresentaçãoTipo igrejapatrimónio culturalEstatuto patrimonial sem protecção legal (d)LocalizaçãoLocalização Santo Varão PortugalCoordenadas 40° 11′ 03″ N, 8° 36′ 20″ O…
Devon Energy Corporation Logo Rechtsform Corporation ISIN US25179M1036 Gründung 1971 Sitz Oklahoma City, Vereinigte Staaten Vereinigte Staaten Leitung David A. Hager, President und CEO[1]John Richels (Chairman)[2] Mitarbeiterzahl 1.800[3] Umsatz 19,169 Mrd. USD[3] Branche Erdöl, Erdgas Website www.devonenergy.com Stand: 31. Dezember 2022 Devon Energy Corp. ist ein US-amerikanisches Unternehmen mit Firmensitz in Oklahoma City. Das Unternehmen ist im Akt…
Опис файлу Обґрунтування добропорядного використання для статті «Karlie Flamingo» [?] Опис логотип компанії Karlie Flamingo Джерело http://www.flamingo.be/DefaultUK.asp Мета використання в якості основного засобу візуальної ідентифікації у верхній частині статті. Замінність Заміна вільним фай…
Gemma WhelanWhelan di Konvensi Antwerp 2014LahirGemma Elizabeth Whelan23 April 1981 (umur 42)Leeds, InggrisKebangsaanInggrisPekerjaanPemeran, pelawakTahun aktif2005–sekarangTinggi5 ft 6 in (168 cm)[1]Anak1 Gemma Elizabeth Whelan (lahir 23 April 1981) adalah seorang aktor dan komedan asal Inggris. Ia dikenal karena memerankan Yara Greyjoy dalam seri drama-fantasi HBO Game of Thrones.[2] Filmografi Televisi Tahun Judul Peran Keterangan 2006 The Enforcers …
هذه المقالة يتيمة إذ تصل إليها مقالات أخرى قليلة جدًا. فضلًا، ساعد بإضافة وصلة إليها في مقالات متعلقة بها. (فبراير 2019) داي سانت جون معلومات شخصية الميلاد 1 أبريل 1871 الوفاة 23 نوفمبر 1899 (28 سنة) أورانج فري ستيت الجنسية جنوب إفريقيا المملكة المتحدة لبريطانيا العظمى وأيرل…
هذه مقالة غير مراجعة. ينبغي أن يزال هذا القالب بعد أن يراجعها محرر مغاير للذي أنشأها؛ إذا لزم الأمر فيجب أن توسم المقالة بقوالب الصيانة المناسبة. يمكن أيضاً تقديم طلب لمراجعة المقالة في الصفحة المخصصة لذلك. (نوفمبر 2018)الأوقاف في الجزائر خلال العهد العثماني هذه المقالة يتيمة
هذه المقالة يتيمة إذ تصل إليها مقالات أخرى قليلة جدًا. فضلًا، ساعد بإضافة وصلة إليها في مقالات متعلقة بها. (أغسطس 2023) إيدي ألفاريز معلومات شخصية اسم الولادة (بالإسبانية: Eduardo Cortes Alvarez) الميلاد 30 يناير 1990 (33 سنة) ميامي مواطنة الولايات المتحدة الطول 175 سنتيمتر …
توزيع حقول الغاز على بلدان العالم هذه قائمة بحقول الغاز الطبيعي تحتوي على معظم الحقول الحالية والسابقة. (بعض المدخلات في القائمة عبارة عن مشروعات أو أحواض تشمل عدة حقول (مثلا حوض سخالين يحتوي على ثلاثة حقول: تشايفو وأودوبتو وأركوتون-داغي). أكبر حقول الغاز غير المصاحب № اسم ال…
Erwanto KurniadiInformasi pribadiLahirApril 1967JakartaMeninggal17 Mei 2019JakartaKarier militerPihak IndonesiaDinas/cabang Kepolisian Negara Republik IndonesiaMasa dinas1989–2019Pangkat Brigadir Jenderal PolisiSatuanReserseSunting kotak info • L • B Brigjen Pol. (Purn.) Drs. Erwanto Kurniadi, S.H., M.H. (lahir di Jakarta, April 1967 – meninggal di Jakarta, 17 Mei 2019) adalah seorang perwira tinggi Polri yang terakhir kali sebelum meninggal menjabat sebagai Dirtipidk…
У Вікіпедії є статті про інші значення цього терміна: Агрікола (значення). Настільна гра про сільске господарство АгріколаAgricolaДизайнер Уве Розенберг Dale Yu (режим для одного гравця)Ілюстратор Klemens FranzВидавець Lookout Games(Німеччина)Дата випуску 2007; 16 років тому (2007)Кільк…
For the LL Cool J song, see 14 Shots to the Dome. 2014 single by Inna featuring Marian Hill or remix featuring the latter and YandelDiggy DownSingle by Inna featuring Marian Hill or remix featuring the latter and Yandelfrom the album Inna and Body and the Sun Released15 December 2014Genre Dance-pop R&B Length3:14Label Empire Roton Songwriter(s) Ilsey Juber Marcel Botezan Radu Bolfea Sebastian Barac Producer(s)Vlad LucanInna singles chronology Good Time (2014) Diggy Down (2014) We Wanna (…
This article contains content that is written like an advertisement. Please help improve it by removing promotional content and inappropriate external links, and by adding encyclopedic content written from a neutral point of view. (March 2020) (Learn how and when to remove this template message) ApteligentTypeTechnologyIndustryMobile application developmentFounded2010; 13 years ago (2010)FounderAndrew Levy, Robert Kwok and Jeeyun KimHeadquartersSan Francisco, California, USASer…
Artikel ini sebatang kara, artinya tidak ada artikel lain yang memiliki pranala balik ke halaman ini.Bantulah menambah pranala ke artikel ini dari artikel yang berhubungan atau coba peralatan pencari pranala.Tag ini diberikan pada November 2022. Nama ini menggunakan kebiasaan penamaan Filipina; nama tengah atau nama keluarga pihak ibunya adalah Sionil dan marga atau nama keluarga pihak ayahnya adalah José. F. Sionil JoséJosé in 2017LahirFrancisco Sionil José(1924-12-03)3 Desember 1924Ro…
This article needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed.Find sources: The Chess Master – news · newspapers · books · scholar · JSTOR (September 2015) (Learn how and when to remove this template message) The Chess Mastercover of the 2005 English-Chinese bilingual editionAuthorAh ChengOriginal title棋王 QíwángTranslatorW.J.F. Jenn…
Patrick Michel (born 25 February 1970 in Saint-Tropez, France) is a French planetary scientist, Senior Researcher at CNRS (Centre National de la Recherche Scientifique), leader of the team TOP (Theories and Observations in Planetology) of the CNRS and Université Côte d'Azur Lagrange Laboratory at the Côte d'Azur Observatory in Nice (France), and also a Global Fellow of the University of Tokyo.[1][2][3][4]Patrick Michel, Côte d'Azur Observatory, 2020. Studies M…
A Cooper T51 Formula One car, in the distinctive 1960 livery of the British Racing Partnership-run Yeoman Credit Racing team Yeoman Credit Racing was a name used by two different Formula One motor racing teams in the early-1960s: the British Racing Partnership (1960); and Reg Parnell Racing (1961–62). The name was derived from commercial sponsorship arrangements, the first time that a Formula One racing team had changed their name in deference to sponsorship. Brief history The first team to be…
1979 Prohibiton-era role-playing game Gangster! is a role-playing game published by Fantasy Games Unlimited (FGU) in 1979 that is set in the 1920s in Chicago during the American Prohibition.. Gameplay Gangster! is a cops-and-mobsters role-playing game system set Chicago in the 1920s.[1] Players can choose to be on the side of the law as police (city or federal), or they can roleplay a criminal, either as loner or as part of a syndicate. The combat covers many sorts of firearms.[2]…