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Monday, August 13, 2018

Glucose Transporters (GLUTs and SGLTs) - Biochemistry Lesson - YouTube
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Glucose transporters are a wide group of membrane proteins that facilitate the transport of glucose across the plasma membrane. Because glucose is a vital source of energy for all life, these transporters are present in all phyla. The GLUT or SLC2A family are a protein family that is found in most mammalian cells. 14 GLUTS are encoded by human genome. GLUT is a type of uniporter transporter protein.


Video Glucose transporter



Synthesis of free glucose

Most non-autotrophic cells are unable to produce free glucose because they lack expression of glucose-6-phosphatase and, thus, are involved only in glucose uptake and catabolism. Usually produced only in hepatocytes, in fasting conditions, other tissues such as the intestines, muscles, brain, and kidneys are able to produce glucose following activation of gluconeogenesis.


Maps Glucose transporter



Glucose transport in yeast

In Saccharomyces cerevisiae glucose transport takes place through facilitated diffusion. The transport proteins are mainly from the Hxt family, but many other transporters have been identified.


BIOL2060: Cell Biology
src: www.mun.ca


Glucose transport in mammals

GLUTs are integral membrane proteins that contain 12 membrane-spanning helices with both the amino and carboxyl termini exposed on the cytoplasmic side of the plasma membrane. GLUT proteins transport glucose and related hexoses according to a model of alternate conformation, which predicts that the transporter exposes a single substrate binding site toward either the outside or the inside of the cell. Binding of glucose to one site provokes a conformational change associated with transport, and releases glucose to the other side of the membrane. The inner and outer glucose-binding sites are, it seems, located in transmembrane segments 9, 10, 11; also, the DLS motif located in the seventh transmembrane segment could be involved in the selection and affinity of transported substrate.

Types

Each glucose transporter isoform plays a specific role in glucose metabolism determined by its pattern of tissue expression, substrate specificity, transport kinetics, and regulated expression in different physiological conditions. To date, 14 members of the GLUT/SLC2 have been identified. On the basis of sequence similarities, the GLUT family has been divided into three subclasses.

Class I

Class I comprises the well-characterized glucose transporters GLUT1-GLUT4.

Classes II/III

Class II comprises:

  • GLUT5 (SLC2A5), a fructose transporter in enterocytes
  • GLUT7 - SLC2A7 - (SLC2A7), found in the small and large intestine, transporting glucose out of the endoplasmic reticulum
  • GLUT9 - SLC2A9 - (SLC2A9)
  • GLUT11 (SLC2A11)

Class III comprises:

  • GLUT6 (SLC2A6),
  • GLUT8 (SLC2A8),
  • GLUT10 (SLC2A10),
  • GLUT12 (SLC2A12), and
  • GLUT13, also H+/myoinositol transporter HMIT (SLC2A13), primarily expressed in brain.

Most members of classes II and III have been identified recently in homology searches of EST databases and the sequence information provided by the various genome projects.

The function of these new glucose transporter isoforms is still not clearly defined at present. Several of them (GLUT6, GLUT8) are made of motifs that help retain them intracellularly and therefore prevent glucose transport. Whether mechanisms exist to promote cell-surface translocation of these transporters is not yet known, but it has clearly been established that insulin does not promote GLUT6 and GLUT8 cell-surface translocation.

Discovery of sodium-glucose cotransport

In August 1960, in Prague, Robert K. Crane presented for the first time his discovery of the sodium-glucose cotransport as the mechanism for intestinal glucose absorption. Crane's discovery of cotransport was the first ever proposal of flux coupling in biology.


A Functional Role for Sodium-Dependent Glucose Transport across ...
src: jpet.aspetjournals.org


See also

  • Cotransport
  • Cotransporter

Brain glucose transporters | Neurology
src: n.neurology.org


References


Glucose Transport Made Ridiculously Simple - YouTube
src: i.ytimg.com


External links

  • Glucose+Transport+Proteins,+Facilitative at the US National Library of Medicine Medical Subject Headings (MeSH)

Source of article : Wikipedia