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Lysosomes are cellular organelles that contain acid hydrolase enzymes to break down waste materials and cellular debris. They are found in animal cells, while in yeast and plants the same roles are performed by lytic vacuoles.^[1] Lysosomes digest excess or worn-out organelles, food particles, and engulfed viruses or bacteria. The membrane around a lysosome allows the digestive enzymes to work at the 4.5 pH they require. Lysosomes fuse with vacuoles and dispense their enzymes into the vacuoles, digesting their contents. They are created by the addition of hydrolytic enzymes to early endosomes from the Golgi apparatus. The name lysosome derives from the Greek words lysis, to separate, and soma, body. They are frequently nicknamed "suicide-bags" or "suicide-sacs" by cell biologists due to their role in autolysis. Lysosomes were discovered by the Belgian cytologist Christian de Duve in the 1960s.

The size of lysosomes varies from 0.1–1.2 μm.^[2] At pH 4.8, the interior of the lysosomes is acidic compared to the slightly alkaline cytosol (pH 7.2). The lysosome maintains this pH differential by pumping protons (H⁺ ions) from the cytosol across the membrane via proton pumps and chloride ion channels. The lysosomal membrane protects the cytosol, and therefore the rest of the cell, from the degradative enzymes within the lysosome. The cell is additionally protected from any lysosomal acid hydrolases that drain into the cytosol, as these enzymes aren't pH-sensitive and function as well in the alkaline environment of the cytosol.

Enzymes

Some important enzymes found within lysosomes include:

Lipase, which digests lipids
Amylase, which digests amylose, starch, and maltodextrins
Proteases, which digest proteins
Nucleases, which digest nucleic acids
Phosphoric acid monoesters.

Lysosomal enzymes are synthesized in the cytoplasm and the endoplasmic reticulum, where they receive a mannose-6-phosphate tag that targets them for the lysosome ^{[citation needed]} . Aberrant lysosomal targeting causes inclusion-cell disease, whereby enzymes do not properly reach the lysosome, resulting in accumulation of waste within these organelles.^{[citation needed]}

Functions

Lysosomes are the cell's waste disposal system and can digest many compounds. They are used for the digestion of macromolecules from phagocytosis (ingestion of other dying cells or larger extracellular material, like foreign invading microbes), endocytosis (where receptor proteins are recycled from the cell surface), and autophagy (where in old or unneeded organelles or proteins, or microbes that have invaded the cytoplasm are delivered to the lysosome). Autophagy may also lead to autophagic cell death, a form of programmed self-destruction, or autolysis, of the cell, which means that the cell is digesting itself.

Other functions include digesting foreign bacteria (or other forms of waste) that invade a cell and helping repair damage to the plasma membrane by serving as a membrane patch, sealing the wound. In the past, lysosomes were thought to kill cells that are no longer wanted, such as those in the tails of tadpoles or in the web from the fingers of a 3- to 6-month-old fetus. While lysosomes digest some materials in this process, it is actually accomplished through programmed cell death, called apoptosis.^[3]^[4]

Clinical relevance

There are a number of lysosomal storage diseases that are caused by the malfunction of the lysosomes or one of their digestive proteins; examples include Niemann Pick Type C, Tay-Sachs disease and Pompe's disease. These diseases are caused by a defective or missing digestive protein, which leads to the accumulation of substrates within the cell, impairing metabolism.

In the broad sense, these can be classified as mucopolysaccharidoses, GM₂ gangliosidoses, lipid storage disorders, glycoproteinoses, mucolipidoses, or leukodystrophies.

Proteins in different cellular compartments and structures tagged with green fluorescent protein.

External links

References

^ Samaj J, Read ND, Volkmann D, Menzel D, Baluska F (2005). "The endocytic network in plants". Trends Cell Biol. 15 (8): 425–33. doi:10.1016/j.tcb.2005.06.006. PMID 16006126. {{cite journal}}: Unknown parameter |month= ignored (help)CS1 maint: multiple names: authors list (link)
^ Kuehnel, W (2003). Color Atlas of Cytology, Histology, & Microscopic Anatomy (4th ed.). Thieme. p. 34. ISBN 1-58890-175-0.
^ Lysosomes and Peroxisomes
^ Mader, Sylvia. (2007). Biology 9th ed. McGraw Hill. New York. ISBN 978-0072464634

This article incorporates public domain material from Science Primer. NCBI. Archived from the original on 2009-12-08.

[1] Samaj J, Read ND, Volkmann D, Menzel D, Baluska F (2005). "The endocytic network in plants". Trends Cell Biol. 15 (8): 425–33. doi:10.1016/j.tcb.2005.06.006. PMID 16006126. {{cite journal}}: Unknown parameter |month= ignored (help)CS1 maint: multiple names: authors list (link)

[2] Kuehnel, W (2003). Color Atlas of Cytology, Histology, & Microscopic Anatomy (4th ed.). Thieme. p. 34. ISBN 1-58890-175-0.

[3] Lysosomes and Peroxisomes

[4] Mader, Sylvia. (2007). Biology 9th ed. McGraw Hill. New York. ISBN 978-0072464634

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@@ Line 15: / Line 15: @@
 (13) [[centriole]]s within [[centrosome]]]]
-'''Lysosomes''' aleksis and ollie smell are cellular [[organelle]]s that contain acid [[hydrolase]] enzymes to break down waste materials and cellular debris. They are found in animal cells, while in yeast and plants the same roles are performed by lytic [[vacuole]]s.<ref>{{cite journal |author=Samaj J, Read ND, Volkmann D, Menzel D, Baluska F |title=The endocytic network in plants |journal=Trends Cell Biol. |volume=15 |issue=8 |pages=425–33 |year=2005 |month=August |pmid=16006126 |doi=10.1016/j.tcb.2005.06.006}}</ref> Lysosomes digest excess or worn-out [[organelle]]s, food particles, and engulfed [[virus]]es or [[bacteria]]. The [[biological membrane|membrane]] around a lysosome allows the [[digestive enzyme]]s to work at the 4.5 [[pH]] they require. Lysosomes fuse with [[vacuole]]s and dispense their enzymes into the [[vacuole]]s, digesting their contents. They are created by the addition of hydrolytic enzymes to early [[endosome]]s from the [[Golgi apparatus]]. The name ''lysosome'' derives from the Greek words '''[[lysis]]''', ''to separate'', and '''soma''', ''body''. They are frequently nicknamed "suicide-bags" or "suicide-sacs" by cell biologists due to their role in [[autolysis]].  Lysosomes were discovered by the Belgian cytologist [[Christian de Duve]] in the 1960s.
+'''Lysosomes''' are cellular [[organelle]]s that contain acid [[hydrolase]] enzymes to break down waste materials and cellular debris. They are found in animal cells, while in yeast and plants the same roles are performed by lytic [[vacuole]]s.<ref>{{cite journal |author=Samaj J, Read ND, Volkmann D, Menzel D, Baluska F |title=The endocytic network in plants |journal=Trends Cell Biol. |volume=15 |issue=8 |pages=425–33 |year=2005 |month=August |pmid=16006126 |doi=10.1016/j.tcb.2005.06.006}}</ref> Lysosomes digest excess or worn-out [[organelle]]s, food particles, and engulfed [[virus]]es or [[bacteria]]. The [[biological membrane|membrane]] around a lysosome allows the [[digestive enzyme]]s to work at the 4.5 [[pH]] they require. Lysosomes fuse with [[vacuole]]s and dispense their enzymes into the [[vacuole]]s, digesting their contents. They are created by the addition of hydrolytic enzymes to early [[endosome]]s from the [[Golgi apparatus]]. The name ''lysosome'' derives from the Greek words '''[[lysis]]''', ''to separate'', and '''soma''', ''body''. They are frequently nicknamed "suicide-bags" or "suicide-sacs" by cell biologists due to their role in [[autolysis]].  Lysosomes were discovered by the Belgian cytologist [[Christian de Duve]] in the 1960s.
 The size of lysosomes varies from 0.1&ndash;1.2 [[micrometre|μm]].<ref>{{cite book | last=Kuehnel | first=W | title=Color Atlas of Cytology, Histology, & Microscopic Anatomy | publisher=Thieme | year=2003 | edition=4th | pages=34 | isbn=1-58890-175-0 }}</ref> At [[pH]] 4.8, the interior of the lysosomes is acidic compared to the slightly alkaline [[cytosol]] (pH 7.2). The lysosome maintains this pH differential by pumping [[proton]]s (H<sup>+</sup> ions) from the cytosol across the [[Cell membrane|membrane]] via [[proton pump]]s and chloride [[ion channel]]s.  The lysosomal membrane protects the cytosol, and therefore the rest of the [[cell (biology)|cell]], from the [[degradative enzyme]]s within the lysosome. The cell is additionally protected from any lysosomal acid [[hydrolases]] that drain into the cytosol, as these enzymes aren't pH-sensitive and function as well in the alkaline environment of the cytosol.

v t e Structures of the cell / organelles
Endomembrane system	Cell membrane Nucleus Endoplasmic reticulum Golgi apparatus Parenthesome Autophagosome Vesicle Exosome Lysosome Endosome Phagosome Vacuole Acrosome Cytoplasmic granule Melanosome Microbody Glyoxysome Peroxisome Weibel–Palade body
Cytoskeleton	Microfilament Intermediate filament Microtubule Prokaryotic cytoskeleton Microtubule organizing center Centrosome Centriole Basal body Spindle pole body Myofibril Undulipodium Cilium Flagellum Axoneme Radial spoke Pseudopodium Lamellipodium Filopodium
Endosymbionts	Mitochondrion Plastid Chloroplast Chromoplast Gerontoplast Leucoplast Amyloplast Elaioplast Proteinoplast Tannosome Apicoplast Nitroplast
Other internal	Nucleolus RNA Ribosome Spliceosome Vault Cytoplasm Cytosol Inclusions Proteasome Magnetosome
External	Cell wall Extracellular matrix