Brown adipose tissue: Difference between revisions
m Check Wikipedia cleanup (DEFAULTSORTs per guidelines) + gen. fixes |
|||
| Line 22: | Line 22: | ||
==Presence in adults== |
==Presence in adults== |
||
Until very recently, it was believed that, when growing up, most of the mitochondria (which are responsible for the brown color) in brown adipose tissue disappear, and the tissue becomes similar in function and appearance to white fat - as a mere fat deposit. But more recently it has become clear that brown fat is not closely related to white fat, but to skeletal muscle |
Until very recently, it was believed that, when growing up, most of the mitochondria (which are responsible for the brown color) in brown adipose tissue disappear, and the tissue becomes similar in function and appearance to white fat - as a mere fat deposit{{Fact|date=June 2009}}. But more recently it has become clear that brown fat is not closely related to white fat, but to skeletal muscle{{Fact|date=June 2009}}. Further, recent studies<ref name="pmid17473055">{{cite journal |author=Nedergaard J, Bengtsson T, Cannon B |title=Unexpected evidence for active brown adipose tissue in adult humans |journal=Am. J. Physiol. Endocrinol. Metab. |volume=293 |issue=2 |pages=E444–52 |year=2007 |month=August |pmid=17473055 |doi=10.1152/ajpendo.00691.2006 |url=http://ajpendo.physiology.org/cgi/pmidlookup?view=long&pmid=17473055}}</ref> using [[Positron Emission Tomography]] scanning of adult humans have shown that it is still present in adults in the upper chest and neck. The remaining deposits become more visible (increasing tracer uptake) with cold exposure, and less visible if an adrenergic [[beta blocker]] is given before the scan. The recent study could lead to a new method of [[weight loss]], since brown fat takes calories from normal fat and burns it{{Fact|date=June 2009}}. Scientists{{Who?|date=June 2009}} were able to stimulate brown fat growth in mice, but human trials have not yet begun{{Fact|date=June 2009}}. |
||
==Embryology== |
==Embryology== |
||
Revision as of 23:12, 13 June 2009
Brown adipose tissue (BAT) or brown fat is one of two types of adipose tissue (the other being white adipose tissue) found in mammals. It is especially abundant in newborns and in hibernating mammals.[1] Its primary function is to generate body heat. In contrast to white adipocytes (fat cells), which contain a single lipid droplet, brown adipocytes contain numerous smaller droplets and a much higher number of mitochondria.[2] Brown fat also contains more capillaries than white fat, since it has a greater need for oxygen than most tissues.
Biochemistry
The mitochondria in a eukaryotic cell utilize fuels to produce energy (in the form of ATP). This process involves storing energy as a proton gradient, also known as the proton motive force (PMF), across the mitochondrial inner membrane. This energy is used to synthesise ATP when the protons flow across the membrane (down their concentration gradient) through the ATP synthase enzyme; this is known as chemiosmosis.
In endothermic animals, body heat is maintained by signaling the mitochondria to allow protons to run back along the gradient without producing ATP. This can occur since an alternative return route for the protons exists through an uncoupling protein in the inner membrane. This protein, known as uncoupling protein 1 (thermogenin), facilitates the return of the protons after they have been actively pumped out of the mitochondria by the electron transport chain. This alternative route for protons uncouples oxidative phosphorylation and the energy in the PMF is instead released as heat.
To some degree, all cells of endotherms give off heat, especially when body temperature is below a regulatory threshold. However, brown adipose tissue is highly specialized for this non-shivering thermogenesis. First, each cell has a higher number of mitochondria compared to more typical cells. Second, these mitochondria have a higher-than-normal concentration of thermogenin in the inner membrane.
Function in infants
In neonates (newborn infants), brown fat, which then makes up about 5% of the body mass and is located on the back, along the upper half of the spine and toward the shoulders, is of great importance to avoid lethal cold (hypothermia is a major death risk for premature neonates). Numerous factors make infants more susceptible to cold than adults:
- The higher ratio of body surface (proportional to heat loss) to body volume (proportional to heat production)
- The higher proportional surface area of the head
- The low amount of musculature and the inability or reluctance to shiver
- A lack of thermal insulation, e.g., subcutaneous fat and fine body hair (especially in prematurely born children)
- The inability to move away from cold areas, air currents or heat-draining materials
- The inability to use additional ways of keeping warm (e.g., turning up a heater, drying their skin, changing clothes or performing physical exercise)
- The nervous system is not fully developed and does not respond quickly and/or properly to cold (e.g., by contracting blood vessels in and just below the skin). (Note that contracting these blood vessels has disadvantages, such as reducing immunity in the skin which could allow a skin or internal infection to develop, and perhaps reducing the rate at which the skin can heal.)
The burning of brown fat provides a baby with an alternative means of heat regulation.
Presence in adults
Until very recently, it was believed that, when growing up, most of the mitochondria (which are responsible for the brown color) in brown adipose tissue disappear, and the tissue becomes similar in function and appearance to white fat - as a mere fat deposit[citation needed]. But more recently it has become clear that brown fat is not closely related to white fat, but to skeletal muscle[citation needed]. Further, recent studies[3] using Positron Emission Tomography scanning of adult humans have shown that it is still present in adults in the upper chest and neck. The remaining deposits become more visible (increasing tracer uptake) with cold exposure, and less visible if an adrenergic beta blocker is given before the scan. The recent study could lead to a new method of weight loss, since brown fat takes calories from normal fat and burns it[citation needed]. Scientists[who?] were able to stimulate brown fat growth in mice, but human trials have not yet begun[citation needed].
Embryology
Brown fat has a different embryological origin from white fat, and appears to share the same lineage as muscle.[2]
See also
References
- ^ Gesta S, Tseng YH, Kahn CR (2007). "Developmental origin of fat: tracking obesity to its source". Cell. 131 (2): 242–56. doi:10.1016/j.cell.2007.10.004. PMID 17956727.
{{cite journal}}: Unknown parameter|month=ignored (help)CS1 maint: multiple names: authors list (link) - ^ a b Enerbäck S (2009). "The origins of brown adipose tissue". N Engl J Med. 360 (19): 2021–2023. doi:10.1056/NEJMcibr0809610.
- ^ Nedergaard J, Bengtsson T, Cannon B (2007). "Unexpected evidence for active brown adipose tissue in adult humans". Am. J. Physiol. Endocrinol. Metab. 293 (2): E444–52. doi:10.1152/ajpendo.00691.2006. PMID 17473055.
{{cite journal}}: Unknown parameter|month=ignored (help)CS1 maint: multiple names: authors list (link)
External links
- Histology image: 04901lob – Histology Learning System at Boston University - "Connective Tissue: multilocular (brown) adipocytes"