Glycocalyx

Glycocalyx
TEM micrograph of a B. subtilis bacterium, with the hair-like glycocalyx visible surrounding the cell membrane (scale bar = 200 nm)
Identifiers
MeSHD019276
THH1.00.01.1.00002
FMA66838
Anatomical terms of microanatomy

The glycocalyx (pl.: glycocalyces or glycocalyxes), also known as the pericellular matrix and cell coat, is a layer of glycoproteins and glycolipids which surround the cell membranes of bacteria, epithelial cells, and other cells.[1]

Animal epithelial cells have a fuzz-like coating on the external surface of their plasma membranes. This viscous coating is the glycocalyx that consists of several carbohydrate moieties of membrane glycolipids and glycoproteins, which serve as backbone molecules for support. Generally, the carbohydrate portion of the glycolipids found on the surface of plasma membranes helps these molecules contribute to cell–cell recognition, communication, and intercellular adhesion.[2]

The glycocalyx is a type of identifier that the body uses to distinguish between its own healthy cells and transplanted tissues, diseased cells, or invading organisms. Included in the glycocalyx are cell-adhesion molecules that enable cells to adhere to each other and guide the movement of cells during embryonic development.[3] The glycocalyx plays a major role in regulation of endothelial vascular tissue, including the modulation of red blood cell volume in capillaries.[4]

The term was initially applied to the polysaccharide matrix coating epithelial cells, but its functions have been discovered to go well beyond that.

In vascular endothelial tissue

The glycocalyx is located on the apical surface of vascular endothelial cells which line the lumen. When vessels are stained with cationic dyes such as Alcian blue stain, transmission electron microscopy shows a small, irregularly shaped layer extending approximately 50–100 nm into the lumen of a blood vessel. Another study used osmium tetroxide staining during freeze substitution, and showed that the endothelial glycocalyx could be up to 11 μm thick.[5] It is present throughout a diverse range of microvascular beds (capillaries) and macrovessels (arteries and veins). The glycocalyx also consists of a wide range of enzymes and proteins that regulate leukocyte and thrombocyte adherence, since its principal role in the vasculature is to maintain plasma and vessel-wall homeostasis. These enzymes and proteins include:

The enzymes and proteins listed above serve to reinforce the glycocalyx barrier against vascular and other diseases. Another main function of the glycocalyx within the vascular endothelium is that it shields the vascular walls from direct exposure to blood flow, while serving as a vascular permeability barrier.[6] Its protective functions are universal throughout the vascular system, but its relative importance varies depending on its exact location in the vasculature. In microvascular tissue, the glycocalyx serves as a vascular permeability barrier by inhibiting coagulation and leukocyte adhesion. Leukocytes must not stick to the vascular wall because they are important components of the immune system that must be able to travel to a specific region of the body when needed. In arterial vascular tissue, the glycocalyx also inhibits coagulation and leukocyte adhesion, but through mediation of shear stress-induced nitric oxide release. Another protective function throughout the cardiovascular system is its ability to affect the filtration of interstitial fluid from capillaries into the interstitial space.[7]

The glycocalyx, which is located on the apical surface of endothelial cells, is composed of a negatively charged network of proteoglycans, glycoproteins, and glycolipids.[8] Along the luminal surface of the vascular glycocalyx exists an empty layer that excludes red blood cells.[9]

Disruption and disease

Because the glycocalyx is so prominent throughout the cardiovascular system, disruption to this structure has detrimental effects that can cause disease. Certain stimuli that cause atheroma may lead to enhanced sensitivity of vasculature. Initial dysfunction of the glycocalyx can be caused by hyperglycemia or oxidized low-density lipoproteins (LDLs), which then causes atherothrombosis. In microvasculature, dysfunction of the glycocalyx leads to internal fluid imbalance, and potentially edema. In arterial vascular tissue, glycocalyx disruption causes inflammation and atherothrombosis.[10]

Experiments have been performed to test precisely how the glycocalyx can be altered or damaged. One particular study used an isolated perfused heart model designed to facilitate detection of the state of the vascular barrier portion, and sought to cause insult-induced shedding of the glycocalyx to ascertain the cause-and-effect relationship between glycocalyx shedding and vascular permeability. Hypoxic perfusion of the glycocalyx was thought to be sufficient to initiate a degradation mechanism of the endothelial barrier. The study found that flow of oxygen throughout the blood vessels did not have to be completely absent (ischemic hypoxia), but that minimal[clarification needed] levels of oxygen were sufficient to cause the degradation. Shedding of the glycocalyx can be triggered by inflammatory stimuli, such as tumor necrosis factor-alpha. Whatever the stimulus is, however, shedding of the glycocalyx leads to a drastic[clarification needed] increase in vascular permeability. Vascular walls being permeable is disadvantageous, since that would enable passage of some macromolecules or other harmful antigens.[11]

Other sources of damage to the endothelial glycocalyx have been observed in several pathological conditions such as inflammation,[12] hyperglycemia,[13] ischemia-reperfusion,[14] viral infections[15] and sepsis.[16]

Some key components of the glycocalyx such as syndecans, heparan sulphate, chondroitin sulphate and hyaluronan can be shed of the endothelial layer by enzymes. Hyaluronidase, hepararanse/heparinase, matrix and membrane-type matrix metalloproteases, thrombin, plasmin and elastase are some examples of enzymes that can induce shedding of the glycocalyx and these sheddases can therefor contribute to degradation of the glycocalyx layer in several pathological conditions.[17] Research shows that plasma hyaluronidase activity is decreased in experimental as well as in clinical septic shock and is therefore not considered to be a sheddase in sepsis.[18] Concomitant, the endogenous plasma inhibition of hyaluronidase is increased and could serve as a protection against glycocalyx shedding.

Fluid shear stress is also a potential problem if the glycocalyx is degraded for any reason. This type of frictional stress is caused by the movement of viscous fluid (i.e. blood) along the lumen boundary. Another similar experiment was carried out to determine what kinds of stimuli cause fluid shear stress. The initial measurement was taken with intravital microscopy, which showed a slow-moving plasma layer, the glycocalyx, of 1 μm thick. Light dye damaged the glycocalyx minimally, but that small change increased capillary hematocrit. Thus, fluorescence light microscopy should not be used to study the glycocalyx because that particular method uses a dye. The glycocalyx can also be reduced in thickness when treated with oxidized LDL.[19] These stimuli, along with many other factors, can cause damage to the delicate glycocalyx. These studies are evidence that the glycocalyx plays a crucial role in cardiovascular system health.

In bacteria and nature

The glycocalyx exists in bacteria as either a capsule or a slime layer. Item 6 points at the glycocalyx. The difference between a capsule and a slime layer is that in a capsule polysaccharides are firmly attached to the cell wall, while in a slime layer, the glycoproteins are loosely attached to the cell wall.

A glycocalyx, literally meaning "sugar coat" (glykys = sweet, kalyx = husk), is a network of polysaccharides that project from cellular surfaces of bacteria, which classifies it as a universal surface component of a bacterial cell, found just outside the bacterial cell wall. A distinct, gelatinous glycocalyx is called a capsule, whereas an irregular, diffuse layer is called a slime layer. This coat is extremely hydrated and stains with ruthenium red.

Bacteria growing in natural ecosystems, such as in soil, bovine intestines, or the human urinary tract, are surrounded by some sort of glycocalyx-enclosed microcolony.[20] It serves to protect the bacterium from harmful phagocytes by creating capsules or allowing the bacterium to attach itself to inert surfaces, such as teeth or rocks, via biofilms (e.g. Streptococcus pneumoniae attaches itself to either lung cells, prokaryotes, or other bacteria which can fuse their glycocalices to envelop the colony).

In the digestive tract

A glycocalyx can also be found on the apical portion of microvilli within the digestive tract, especially within the small intestine. It creates a meshwork 0.3 μm thick and consists of acidic mucopolysaccharides and glycoproteins that project from the apical plasma membrane of epithelial absorptive cells. It provides additional surface for adsorption and includes enzymes secreted by the absorptive cells that are essential for the final steps of digestion of proteins and sugars.

Other generalized functions

  • Protection: Cushions the plasma membrane and protects it from chemical injury
  • Immunity to infection: Enables the immune system to recognize and selectively attack foreign organisms
  • Defense against cancer: Changes in the glycocalyx of cancerous cells enable the immune system to recognize and destroy them.
  • Transplant compatibility: Forms the basis for compatibility of blood transfusions, tissue grafts, and organ transplants
  • Cell adhesion: Binds cells together so that tissues do not fall apart
  • Inflammation regulation: Glycocalyx coating on endothelial walls in blood vessels prevents leukocytes from rolling/binding in healthy states.[21]
  • Fertilization: Enables sperm to recognize and bind to eggs[22]
  • Embryonic development: Guides embryonic cells to their destinations in the body

See also

References

  1. ^ Martínez-Palomo, A. (1970). "The Surface Coats of Animal Cells". International Review of Cytology. 29: 29–75. doi:10.1016/S0074-7696(08)60032-7. ISBN 9780123643292.
  2. ^ McKinley, M. & V.D. O’Loughlin. Human Anatomy. McGraw-Hill, 2012. 3rd ed. p. 30-31.
  3. ^ Saladin, Kenneth. "Anatomy & Physiology: The unity of form and function." McGraw Hill. 5th Edition. 2010. p. 94-95
  4. ^ Reitsma, Sietze. "The endothelial glycocalyx: composition, functions, and visualization." European Journal of Physiology. 2007. Vol. 454. Num. 3. p. 345-359
  5. ^ Ebong, Eno; Macaluso FP; Spray DC; Tarbell JM (August 2011). "Imaging the Endothelial Glycocalyx In Vitro By Rapid Freezing/Freeze Substitution Transmission Electron Microscopy". Arteriosclerosis, Thrombosis, and Vascular Biology. 31 (8): 1908–1915. doi:10.1161/ATVBAHA.111.225268. PMC 3141106. PMID 21474821.
  6. ^ Van de Berg, Bernard M., Max Nieuwdorp, Erik S.G. Stroes, Hans Vink. "Glycocalyx and endothelial (dys) function: from mice to men." Pharmacological Reports, 2006, 57: 75-80.
  7. ^ Drake-Holland, Angela & Mark Noble. "The Important New Drug Target in Cardiovascular Medicine – the Vascular Glycocalyx." Cardiovascular & Hematological Disorders-Drug Targets, 2009, 9, p. 118-123
  8. ^ Van de Berg, Bernard M., Max Nieuwdorp, Erik S.G. Stroes, Hans Vink. Glycocalyx and endothelial (dys) function: from mice to men. Pharmacological Reports, 2006, 57: 75-80.
  9. ^ Reitsma, Sietze; Slaaf, Dick W.; Vink, Hans; van Zandvoort, Marc A. M. J.; oude Egbrink, Mirjam G. A. (June 2007). "The endothelial glycocalyx: composition, functions, and visualization". Pflügers Archiv: European Journal of Physiology. 454 (3): 345–359. doi:10.1007/s00424-007-0212-8. PMC 1915585. PMID 17256154.
  10. ^ Drake-Holland, Angela & Mark Noble. "The Important New Drug Target in Cardiovascular Medicine – the Vascular Glycocalyx." Cardiovascular & Hematological Disorders-Drug Targets, 2009, 9, p. 118–123
  11. ^ Annecke, T., et al. "Shedding of the coronary endothelial glycocalyx: effects of hypoxia/reoxygenation vs ischaemia/reperfusion." British Journal of Anaesthesia, 2011. 107 (5): 679–86
  12. ^ Henry, Charmaine B. S.; Duling, Brian R. (2000-12-01). "TNF-α increases entry of macromolecules into luminal endothelial cell glycocalyx". American Journal of Physiology. Heart and Circulatory Physiology. 279 (6): H2815 – H2823. doi:10.1152/ajpheart.2000.279.6.H2815. ISSN 0363-6135. PMID 11087236. S2CID 86646327.
  13. ^ Zuurbier, Coert J.; Demirci, Cihan; Koeman, Anneke; Vink, Hans; Ince, Can (October 2005). "Short-term hyperglycemia increases endothelial glycocalyx permeability and acutely decreases lineal density of capillaries with flowing red blood cells". Journal of Applied Physiology. 99 (4): 1471–1476. doi:10.1152/japplphysiol.00436.2005. ISSN 8750-7587. PMID 16024521.
  14. ^ Mulivor, A. W.; Lipowsky, H. H. (May 2004). "Inflammation- and ischemia-induced shedding of venular glycocalyx". American Journal of Physiology. Heart and Circulatory Physiology. 286 (5): H1672 – H1680. doi:10.1152/ajpheart.00832.2003. ISSN 0363-6135. PMID 14704229.
  15. ^ Becker, Bernhard F.; Jacob, Matthias; Leipert, Stephanie; Salmon, Andrew H. J.; Chappell, Daniel (September 2015). "Degradation of the endothelial glycocalyx in clinical settings: searching for the sheddases: Endothelial glycocalyx - emerging clinical impact". British Journal of Clinical Pharmacology. 80 (3): 389–402. doi:10.1111/bcp.12629. PMC 4574825. PMID 25778676.
  16. ^ Steppan, Jochen; Hofer, Stefan; Funke, Benjamin; Brenner, Thorsten; Henrich, Michael; Martin, Eike; Weitz, Jürgen; Hofmann, Ursula; Weigand, Markus A. (January 2011). "Sepsis and major abdominal surgery lead to flaking of the endothelial glycocalix". The Journal of Surgical Research. 165 (1): 136–141. doi:10.1016/j.jss.2009.04.034. ISSN 1095-8673. PMID 19560161.
  17. ^ Becker, Bernhard F.; Jacob, Matthias; Leipert, Stephanie; Salmon, Andrew H. J.; Chappell, Daniel (September 2015). "Degradation of the endothelial glycocalyx in clinical settings: searching for the sheddases". British Journal of Clinical Pharmacology. 80 (3): 389–402. doi:10.1111/bcp.12629. ISSN 1365-2125. PMC 4574825. PMID 25778676.
  18. ^ van der Heijden, Jaap; Kolliopoulos, Constantinos; Skorup, Paul; Sallisalmi, Marko; Heldin, Paraskevi; Hultström, Michael; Tenhunen, Jyrki (2021-10-11). "Plasma hyaluronan, hyaluronidase activity and endogenous hyaluronidase inhibition in sepsis: an experimental and clinical cohort study". Intensive Care Medicine Experimental. 9 (1): 53. doi:10.1186/s40635-021-00418-3. ISSN 2197-425X. PMC 8502523. PMID 34632531.
  19. ^ Gouverneur, Mirella. Dissertation. "Fluid shear stress directly stimulates synthesis of the endothelial glycocalyx : perturbations by hyperglycemia." 2006. University of Amsterdam. p. 115–153
  20. ^ Costerton & Irvin. Bacterial Glycocalyx in Nature and Disease. Annual Reviews Microbiology, 1981. Vol. 35: p. 299-324
  21. ^ Near-Wall {micro}-PIV Reveals a Hydrodynamically Relevant Endothelial Surface Layer in Venules In Vivo - Smith et al. 85 (1): 637 - Biophysical Journal Archived 2008-12-03 at the Wayback Machine
  22. ^ Schroter, Sabine; Osterhoff, Caroline; McArdle, Wendy; Ivell, Richard (1999). "The glycocalyx of the sperm surface". Human Reproduction Update. 5 (4): 302–313. doi:10.1093/humupd/5.4.302. PMID 10465522.

Read other articles:

Dimitrie Gusti

Romanian sociologist, ethnologist, historian and voluntarist philosopher Gusti in 1938 Gusti on a 2018 stamp sheet of Romania Dimitrie Gusti (Romanian pronunciation: [diˈmitri.e ˈɡusti]; 13 February 1880 – 30 October 1955) was a Romanian sociologist, ethnologist, historian, and voluntarist philosopher; a professor at the University of Iaşi and the University of Bucharest, he served as Romania's Minister of Education in 1932–1933. Gusti was elected a member of the Romanian Acad...

 

以色列工党

以色列工党מפלגת העבודה הישראלית以色列工党标志领袖梅拉夫·邁克爾 (Merav Michaeli)成立1968年 (1968)合并自以色列地工人党勞工聯盟勞工名單意識形態劳工錫安主義社會民主主義自由社會主義第三條道路進步主義兩國方案政治立場中間偏左欧洲组织歐洲社會黨 (觀察員)国际组织社會黨國際 (成員資格被凍結)進步聯盟官方色彩紅色议会4 / 120官方网站www.havoda.org.il以色列

 

Mass shooting contagion

Theory about the occurrence of mass shootings in relation to media coverage Part of a series of articles on theColumbine High School massacre Location:Columbine High School(Columbine, Colorado) Perpetrators:Eric Harris and Dylan Klebold Victims Cassie Bernall Austin Eubanks Rachel Scott Weaponry Intratec TEC-9 Mini Hi-Point 995 Carbine Savage 67H pump-action shotgun Stevens 311D double barreled sawed-off shotgun Related persons Dave Cullen Sue Klebold Danny Ledonne Bill White Media A Mother's...

Anne-Marie Lizin

Lizin in de Belgische senaat Anne-Marie Lizin-Vanderspeeten (Hoei, 5 januari 1949 – aldaar, 17 oktober 2015) was een Belgische politica. Tot 27 januari 2009 was ze lid van de PS. Ze was senator en was 25 jaar lang de burgemeester van Hoei. Ze was licentiate in de economische wetenschappen (ULg). Carrière In 1971 werd Lizin licentiate in de economische wetenschappen aan de Universiteit Luik. Van 1972 tot 1973 was ze kabinetsadviseur van minister van Economische Zaken Henri Simonet. Lizin we...

 

Exhorder

American thrash/groove metal band ExhorderExhorder performing at Turok Open Air in Germany, 2018Background informationOriginNew Orleans, Louisiana, U.S.Genres Thrash metal groove metal Years active 1985–1994 2008–2011 2017–present Labels Roadrunner Nuclear Blast Members Kyle Thomas Jason VieBrooks Sasha Horn Past members Vinnie LaBella David Main Andy Villafarra Chris Nail Jay Ceravolo Frankie Sparcello Seth Davis Marzi Montazeri Websitewww.exhorder.com Exhorder is an American heavy met...

 

Luftstreitkräfte der Koreanischen Volksarmee

Luftstreitkräfte der Koreanischen Volksarmee Flagge der Luftstreitkräfte der Koreanischen Volksarmee Aufstellung 1945 Staat Korea Nord Nordkorea Streitkräfte Koreanische Volksarmee Typ Teilstreitkraft (Luftstreitkräfte) Stärke ca. 86.000 Soldaten Führung Oberbefehlshaber General Ri Pyong-chol Die Luftstreitkräfte der Koreanischen Volksarmee (조선인민군 항공 및 반항공군, engl.: Korean People's Army Air and Anti-Air Force) sind eine Teilstreitkraft der Demokratischen Vol...

Salt Lake Tabernacle

Building in Salt Lake City, Utah The Salt Lake TabernacleMormon TabernacleThe exterior of the Tabernacle in December 2008Location50 W. North Temple Salt Lake City, UtahCoordinates40°46′13.5″N 111°53′35.3″W / 40.770417°N 111.893139°W / 40.770417; -111.893139Public transitTemple Square Trax StationOwnerThe Church of Jesus Christ of Latter-day SaintsTypeAuditoriumSeating typeReserved by SectionCapacity3,500 (after 2007 renovation)[3]ConstructionBroke g...

 

زابايكالسك

زابايكالسك    علم شعار الاسم الرسمي (بالروسية: Отпор)‏(بالروسية: разъезд № 86)‏  الإحداثيات 49°39′05″N 117°19′37″E / 49.651388888889°N 117.32694444444°E / 49.651388888889; 117.32694444444  تاريخ التأسيس 1904  تقسيم إداري  البلد روسيا الإمبراطورية الروسية الاتحاد السوفيتي[1] ...

 

Perjanjian Painan

Artikel ini sebagian besar atau seluruhnya berasal dari satu sumber. Tolong bantu untuk memperbaiki artikel ini dengan menambahkan rujukan ke sumber lain yang tepercaya. Perjanjian Painan atau Het Painans Tractaat merupakan perjanjian yang dibuat oleh penghulu atau penguasa beberapa kota pantai di Pesisir Barat Minangkabau dengan wakil VOC. Pada tahun 1662, perjanjian ini ditandatangani di sebuah pulau tidak berpenghuni dekat Batang Kapeh. Tahun 1663, perjanjian itu dikukuhkan lagi di Batavia...

Windsor Roller Derby

Roller derby league For the league based in Windsor, Berkshire, see Royal Windsor Roller Derby. Windsor Roller DerbyMetro areaWindsor, ONCountryCanadaFoundedJuly 2010TeamsAll-Stars (A team)Canadian Clubbers (B team)Windsor A-Salt - Fresh MeatTrack type(s)FlatVenueThe Atlas Tube CentreAffiliationsWFTDA, RDACWebsitewindsorrollerderby.com Windsor Roller Derby is a women's flat track roller derby league based in Windsor, Ontario. Founded as Border City Brawlers in 2010,[1] the league is a...

 

Nova Scotia Curling Association

Nova Scotia Curling AssociationSportCurlingJurisdictionProvincialMembership33 curling clubsAffiliationCurling CanadaHeadquartersHalifaxOfficial websitewww.nscurl.com The Nova Scotia Curling Association (NSCA) is the regional governing body for the sport of curling in Nova Scotia.[1] The organization is one of 14 regional associations within Curling Canada and as such determines who will represent the province in national championships. Provincial championships Each year the NSCA hosts...

 

Tomas

Thomas beralih ke halaman ini. Untuk kegunaan lain, lihat Thomas (disambiguasi). Santo Tomas sang RasulThe Incredulity of St Thomas (Ketidakpercayaan Santo Tomas) lukisan CaravaggioRasulLahirAbad pertama MasehiGalileaMeninggal3 Juli 72Mylapore, India [1][2]Dihormati diGereja Asiria TimurGereja KatolikGereja Ortodoks TimurGereja Ortodoks OrientalGereja AnglikanGereja Lutheran Dihormati dalam gereja ProtestanKanonisasiPre-kongregasiPesta3 Juli (Gereja Katolik Roma Ritus Latin, G...

Joseph Genaro

American guitarist (born 1962) This biography of a living person needs additional citations for verification. Please help by adding reliable sources. Contentious material about living persons that is unsourced or poorly sourced must be removed immediately from the article and its talk page, especially if potentially libelous.Find sources: Joseph Genaro – news · newspapers · books · scholar · JSTOR (September 2020) (Learn how and when to remove this tem...

 

Fantasia (2004 film)

2004 Hong Kong filmFantasiaFilm posterTraditional Chinese鬼馬狂想曲Simplified Chinese鬼马狂想曲Hanyu PinyinGuǐ Mǎ Kuáng Xiǎng QǔJyutpingGwai2 Maa5 Kwong4 Seong2 Keok1 Directed byWai Ka-faiScreenplay byWai Ka-faiAu Kin-yeeProduced byWai Ka-faiStarringCecilia CheungSean LauLouis KooJordan ChanFrancis NgChristy ChungCharlene ChoiGillian ChungCinematographyHorace WongNg Man-chingEdited byMarco MakMusic byTeddy RobinProductioncompaniesSil-Metropole OrganisationChina Star Entert...

 

Oleg Boltin

Kazakhstani professional wrestler and former amateur wrestler (born 1993) Oleg BoltinBoltin at the 2021 World Wrestling ChampionshipsBirth nameOleg Igorevich BoltinBorn (1993-02-10) 10 February 1993 (age 30)[1]Ridder, Kazakhstan[1]Professional wrestling careerRing name(s)Oleg BoltinBilled height186 cm (6 ft 1 in)Billed weight120 kg (265 lb)Billed fromAlmaty, KazakhstanTrained byNJPW DojoYuji NagataDebut2 April 2023[1]Sports career Medal re...

Madhavi Shankar

Indian entrepreneur This article has multiple issues. Please help improve it or discuss these issues on the talk page. (Learn how and when to remove these template messages) This article is an orphan, as no other articles link to it. Please introduce links to this page from related articles; try the Find link tool for suggestions. (November 2023) The topic of this article may not meet Wikipedia's notability guideline for biographies. Please help to demonstrate the notability of the topic by c...

 

Wings & Things

1965 studio album by Johnny Hodges and Wild Bill DavisWings & ThingsStudio album by Johnny Hodges and Wild Bill DavisReleased1965RecordedJuly 26 & 27, 1965StudioVan Gelder Studio, Englewood Cliffs, NJGenreJazzLength35:01LabelVerve V/V6 8630ProducerCreed TaylorJohnny Hodges chronology Joe's Blues(1965) Wings & Things(1965) Inspired Abandon(1965) Wild Bill Davis chronology Free Frantic and Funky(1965) Wings & Things(1965) Blue Pyramid(1966) Wings & Things is an album...

 

Alexander McCall Smith

British/Zimbabwean writer and academic Alexander McCall SmithCBE, FRSEMcCall Smith in 2018BornRodney Alexander Alasdair McCall Smith (1948-08-24) 24 August 1948 (age 75)Bulawayo, Southern Rhodesia (now Zimbabwe)OccupationProfessor of Medical law, writerNationalityBritish, ZimbabweanCitizenshipUnited KingdomEducationChristian Brothers College, BulawayoAlma materUniversity of Edinburgh (LLB, PhD, Emeritus Professor in the School of Law)GenreFiction, crime fiction, children's books, ac...

1739 in Sweden

Sweden-related events during the year of 1739 Years in Sweden: 1736 1737 1738 1739 1740 1741 1742 Centuries: 17th century · 18th century · 19th century Decades: 1700s 1710s 1720s 1730s 1740s 1750s 1760s Years: 1736 1737 1738 1739 1740 1741 1742 Events from the year 1739 in Sweden Incumbents Monarch – Frederick I Events 16 April – The Hats (party) forms government with Ca...

 

Set Me Free (film 2014)

Set Me FreePoster teatrikalSutradaraKim Tae-yongProduserPyeon Kyung-wooDitulis olehKim Tae-yongPemeranChoi Woo-shik Kim Su-hyeonPenata musikKim Woo-geunSinematograferKim Soo-minPenyuntingKim Mi-young Jo Hyo-jungDistributorCJ EntertainmentTanggal rilis 13 November 2014 (2014-11-13) Durasi108 menitNegaraKorea SelatanBahasaKoreaPendapatankotorUS$158,070[1] Set Me Free (Hangul: 거인; RR: Geoin) adalah film kedewasaan autobiografi Korea Selatan tahun 2014...

 

Strategi Solo vs Squad di Free Fire: Cara Menang Mudah!