Aquaporin-4
AQP4 | |||||||||||||||||||||||||||||||
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Aliases | AQP4, aquaporin 4, HMIWC2, MIWC, WCH4, hAQP4 | ||||||||||||||||||||||||||||||
External IDs | OMIM: 600308; MGI: 107387; HomoloGene: 37507; GeneCards: AQP4; OMA:AQP4 - orthologs | ||||||||||||||||||||||||||||||
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Aquaporin-4, also known as AQP-4, is a water channel protein encoded by the AQP4 gene in humans.[5] AQP-4 belongs to the aquaporin family of integral membrane proteins that conduct water through the cell membrane. A limited number of aquaporins are found within the central nervous system (CNS): AQP1, 3, 4, 5, 8, 9, and 11, but more exclusive representation of AQP1, 4, and 9 are found in the brain and spinal cord.[6] AQP4 shows the largest presence in the cerebellum and spinal cord grey matter.[7] In the CNS, AQP4 is the most prevalent aquaporin channel, specifically located at the perimicrovessel astrocyte foot processes, glia limitans, and ependyma.[8] In addition, this channel is commonly found facilitating water movement near cerebrospinal fluid and vasculature.[9]
Aquaporin-4 was first identified in 1986. It was the first evidence of the existence of water transport channels.[10] The method that was used to discover the existence of the transport channels was through knockout experiments. With this technique they were able to show the significant role of AQP4 in CNS injuries and brain water imbalances.[6] In 1994 the channel was successfully cloned and initially named Mercury-Insensitive Water Channel.[11]
Structure
[edit]The structure of AQP4 consists of six-transmembrane domains and five connecting loops to form the channel. Through x-ray crystallography, it was found that “each AQP4 monomer consists of six helical, membrane-spanning domains and two short helical segments surrounding a narrow aqueous pore.”[12] At the narrowest point the aqueous pore measures 2.8 angstroms, just large enough for the single-file passage of water molecules. While each monomer is individually capable of water transport, the quaternary structure of the channel is a tetramer.[7] The assembly of AQP4 monomers into tetramers is similar to other aquaporin channels.[13] In addition, AQP4 has two distinct structural isoforms located in the CNS: M1 and M23.[6] Both form homo- and hetero-tetramers that are permeable to water.[6] M23 isoforms are larger square arrays in the endfoot membranes of astrocytes compared to M1 isoforms, which are smaller and more unstable. The aquaporin-4 tetramers accumulate to transform into orthogonal arrays of particle (OAPs) in the cell plasma membrane.[12]
Tissue and cellular distribution
[edit]Aquaporin-4 is the most common aquaporin in the brain, spinal cord, and optic nerve.[11] It is highly expressed in the human body primarily at the end-feet of astrocytes.[12] Additionally, AQP4 can also be located in epithelial cells of many organs throughout the human body, such as the kidney, intestine, salivary glands, sensory organs, and skeletal muscles.[10] In these specific cases of epithelial cell expression, AQP4 is concentrated within the basolateral membrane layer of these locations.[13]
Furthermore, AQP4 also plays a role in the supportive cells of sensory organs, such as the retina, inner ear, and olfactory epithelium.[12] Within the retina, AQP4 is highly concentrated where the processes of Müller cells have a basal lamina around blood vessels and inner limiting membrane[10] and to a lesser degree in the inner and outer plexiform layers.[14]
AQP4 is also expressed in astrocytes and is upregulated by direct insult to the central nervous system.[15] Specifically within the central nervous system (CNS), AQP4 can be found along the spinal cord and serves as the main water channel.[6] The AQP4 channels are highly concentrated in the blood-brain barrier (BBB), as well as in other cerebrospinal fluid barriers.[16]
In the kidneys, AQP4 is primarily found in the inner medulla, and shows little to no presence in the outer medulla and cortex.[17] It is constitutively expressed in the basolateral cell membrane of principal collecting duct cells and provide a pathway for water to exit these cells.[18]
Function
[edit]Aquaporin-4's overall function is to provide fast water transportation as well as maintain homeostatic balance within the central nervous system. This channel can transport water up to speeds of 3E9 molecules per second.[7] It is the primary water channel protein that reconciles the homeostasis of water in the CNS.[6] AQP4 may be involved in a variety of physiological processes such as waste removal (glymphatic system) and fine-tuning of potassium homeostasis.[16] Water flowing into and out of the brain or spinal cord is assisted by AQP4.[6] Here, AQP4 channels respond passively to osmotic gradients. In addition, they play a role in brain water transport, cell migration, brain edema, metabolism and cell homeostasis.[19]
Other systems are also regulated by AQP4. Within the inner ear, the main role is to provide osmotic balance in supporting epithelium cells within the organ of Corti by recycling K+.[10] Another specific role AQP4 plays is to help odorant molecules bind to target receptors and binding proteins within olfactory epithelium.[10] Within the retina, the role of AQP-4 is to maintain homeostasis.[10] Aquaporin-4 is essential in the formation of memory as well as synaptic plasticity.[16] Other performances that aquaporin-4 is involved in are synaptic plasticity, astrocyte migration, regulation of extracellular space volume, and the homeostasis of potassium.[16]
Clinical significance
[edit]The condition known as neuromyelitis optica, NMO, is a rare demyelinating, inflammatory disorder of the CNS that primarily affects the optic nerves and spinal cord of individuals.[20] Aquaporin-4 is the predominant autoimmune target in 2/3 neuromyelitis optica and higher AQP4 autoantibody levels are associated with the occurrence of optic neuritis (ON),[21] however serum AQP4-IgG titer only moderately reflects disease activity, severity, or neurological prognosis.[22] Specific AQP4 IgG autoantibody, or NMO-IgG, binds to the extracellular surface of AQP4.[12] This binding provides an opening for the development of targeted therapeutics in NMO.[12] Therapy options are immunosuppression, such as corticosteroids and azathioprine immunosuppressive drugs, immunomodulation, and plasma exchange.[12] A recent serum antibody (anti-AQP4) has been detected for patients with NMO, which is currently used to diagnose this condition.[8]
Other clinical significant implications of AQP4 in the human body is the role in the regulation of cerebrospinal fluid (CSF) in the ventricles. Within the ventricles of the brain, AQP4 can be utilized in the removal of excess CSF in conditions such as hydrocephaly.[19] The primary treatment for individuals with hydrocephaly is through the implementation of mechanical shunts into the ventricles to drain the excess fluid. With further research into the role of AQP4, it may be possible to modify the human body's system of upregulation of these channels to help in the reabsorption of CSF without the need to use physically invasive treatments.[19]
Research
[edit]Based on work in animal models, aquaporin-4 may have a role in several other diseases including Alzheimer's disease, amyotrophic lateral sclerosis, Parkinson's disease, multiple sclerosis, and epilepsy, and appears to have a role in pathological response to traumatic brain injury and stroke.[16]
In rodent models, AQP4 appears plays a role in both the development and resolution of the cerebral edema that occurs following an injury like TBI or stroke and around brain tumors.[8][13] In comparison with wild-type mice, double knockout mice exhibited different diseases course post brain injury.[16] It indicated reduced intracranial pressure, cell death, water accumulation, astrogliosis, and lesion volume.[16] The expression of aquaporin 4 is reliant on the disease stage of TBI.[16] In an acute stage of TBI, the lack of aquaporin 4 causes an decrease of excess water removal while for later stage TBI results in prevention of severe damage and swelling.[16]
In people who suffer from Alzheimer's disease, amyloid plaques sometimes develop in brain arteries—a condition is referred to as cerebral amyloid angiopathy, or CAA. Animal studies have found that the severity of CAA increases or decreases depending on aquaporin-4 expression. When there is an decrease in AQP4, CAA severity increases and vice versa; it is not known what causes changes in AQP4 expression levels, nor whether this is part of the disease process or an effort of the brain to adapt.[16] In animal models of amyotrophic lateral sclerosis, AQP4 is overexpressed in the brainstem, cortex, and gray matter of the spinal cord which results in swollen astrocytes; the reason for this is not understood.[16]
Knockout mice display cognition problems; there is disruption in memory consolidation as well as disruption between memory acquisition, spatial recognition, and memory of where an object was after it has been moved.[16]
References
[edit]- ^ a b c GRCh38: Ensembl release 89: ENSG00000171885 – Ensembl, May 2017
- ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000024411 – Ensembl, May 2017
- ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
- ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
- ^ Jung JS, Bhat RV, Preston GM, Guggino WB, Baraban JM, Agre P (December 1994). "Molecular characterization of an aquaporin cDNA from brain: candidate osmoreceptor and regulator of water balance". Proceedings of the National Academy of Sciences of the United States of America. 91 (26): 13052–6. Bibcode:1994PNAS...9113052J. doi:10.1073/pnas.91.26.13052. PMC 45579. PMID 7528931.
- ^ a b c d e f g Oklinski MK, Skowronski MT, Skowronska A, Rützler M, Nørgaard K, Nieland JD, et al. (December 2016). "Aquaporins in the Spinal Cord". International Journal of Molecular Sciences. 17 (12): 2050. doi:10.3390/ijms17122050. PMC 5187850. PMID 27941618.
- ^ a b c Halsey, Andrea; Conner, Alex; Bill, Roslyn; Logan, Ann; Ahmed, Zubair (2018-10-18). "Aquaporins and Their Regulation after Spinal Cord Injury". Cells. 7 (10): 174. doi:10.3390/cells7100174. ISSN 2073-4409. PMC 6210264. PMID 30340399.
- ^ a b c Saadoun S, Papadopoulos MC (July 2010). "Aquaporin-4 in brain and spinal cord oedema". Neuroscience. 168 (4): 1036–46. doi:10.1016/j.neuroscience.2009.08.019. PMID 19682555. S2CID 7117939.
- ^ Hubbard, Jacqueline A.; Hsu, Mike S.; Seldin, Marcus M.; Binder, Devin K. (2015-10-15). "Expression of the Astrocyte Water Channel Aquaporin-4 in the Mouse Brain". ASN Neuro. 7 (5): 175909141560548. doi:10.1177/1759091415605486. ISSN 1759-0914. PMC 4623559. PMID 26489685.
- ^ a b c d e f Gleiser C, Wagner A, Fallier-Becker P, Wolburg H, Hirt B, Mack AF (August 2016). "Aquaporin-4 in Astroglial Cells in the CNS and Supporting Cells of Sensory Organs-A Comparative Perspective". International Journal of Molecular Sciences. 17 (9): 1411. doi:10.3390/ijms17091411. PMC 5037691. PMID 27571065.
- ^ a b Mader, Simone; Brimberg, Lior (2019-01-27). "Aquaporin-4 Water Channel in the Brain and Its Implication for Health and Disease". Cells. 8 (2): 90. doi:10.3390/cells8020090. ISSN 2073-4409. PMC 6406241. PMID 30691235.
- ^ a b c d e f g Verkman AS, Phuan PW, Asavapanumas N, Tradtrantip L (November 2013). "Biology of AQP4 and anti-AQP4 antibody: therapeutic implications for NMO". Brain Pathology. 23 (6): 684–95. doi:10.1111/bpa.12085. PMC 3890327. PMID 24118484.
- ^ a b c Chu H, Huang C, Ding H, Dong J, Gao Z, Yang X, et al. (August 2016). "Aquaporin-4 and Cerebrovascular Diseases". International Journal of Molecular Sciences. 17 (8): 1249. doi:10.3390/ijms17081249. PMC 5000647. PMID 27529222.
- ^ Nagelhus EA, Veruki ML, Torp R, Haug FM, Laake JH, Nielsen S, et al. (April 1998). "Aquaporin-4 water channel protein in the rat retina and optic nerve: polarized expression in Müller cells and fibrous astrocytes". The Journal of Neuroscience. 18 (7): 2506–19. doi:10.1523/JNEUROSCI.18-07-02506.1998. PMC 6793100. PMID 9502811.
- ^ Nagelhus EA, Mathiisen TM, Ottersen OP (2004). "Aquaporin-4 in the central nervous system: cellular and subcellular distribution and coexpression with KIR4.1". Neuroscience. 129 (4): 905–13. doi:10.1016/j.neuroscience.2004.08.053. PMID 15561407. S2CID 46376911.
- ^ a b c d e f g h i j k l Hubbard JA, Szu JI, Binder DK (January 2018). "The role of aquaporin-4 in synaptic plasticity, memory and disease". Brain Research Bulletin. 136: 118–129. doi:10.1016/j.brainresbull.2017.02.011. PMID 28274814. S2CID 3970706.
- ^ Terris, J.; Ecelbarger, C. A.; Marples, D.; Knepper, M. A.; Nielsen, S. (1995-12-01). "Distribution of aquaporin-4 water channel expression within rat kidney". American Journal of Physiology. Renal Physiology. 269 (6): F775–F785. doi:10.1152/ajprenal.1995.269.6.f775. ISSN 1931-857X. PMID 8594871.
- ^ Agre P, Nielsen S (1996). "The aquaporin family of water channels in kidney". Nephrologie. 17 (7): 409–15. PMID 8987045.
- ^ a b c Desai B, Hsu Y, Schneller B, Hobbs JG, Mehta AI, Linninger A (September 2016). "Hydrocephalus: the role of cerebral aquaporin-4 channels and computational modeling considerations of cerebrospinal fluid". Neurosurgical Focus. 41 (3): E8. doi:10.3171/2016.7.FOCUS16191. PMID 27581320.
- ^ Jarius S, Wildemann B (November 2013). "Aquaporin-4 antibodies (NMO-IgG) as a serological marker of neuromyelitis optica: a critical review of the literature". Brain Pathology. 23 (6): 661–83. doi:10.1111/bpa.12084. PMC 8028894. PMID 24118483. S2CID 11007411.
- ^ Isobe N, Yonekawa T, Matsushita T, et al. (November 2012). "Quantitative assays for anti-aquaporin-4 antibody with subclass analysis in neuromyelitis optica". Multiple Sclerosis. 18 (11): 1541–51. doi:10.1177/1352458512443917. PMID 22526930. S2CID 206699115.
- ^ Isobe N, Yonekawa T, Matsushita T, et al. (May 2013). "Clinical relevance of serum aquaporin-4 antibody levels in neuromyelitis optica". Neurochemical Research. 38 (5): 997–1001. doi:10.1007/s11064-013-1009-0. PMID 23456674. S2CID 18623455.
Further reading
[edit]- Strand L, Moe SE, Solbu TT, Vaadal M, Holen T (June 2009). "Roles of aquaporin-4 isoforms and amino acids in square array assembly". Biochemistry. 48 (25): 5785–93. doi:10.1021/bi802231q. PMID 19445480.
- Wu H, Zhang Z, Li Y, Zhao R, Li H, Song Y, et al. (October 2010). "Time course of upregulation of inflammatory mediators in the hemorrhagic brain in rats: correlation with brain edema". Neurochemistry International. 57 (3): 248–53. doi:10.1016/j.neuint.2010.06.002. PMC 2910823. PMID 20541575.
- Goodyear MJ, Crewther SG, Junghans BM (2009). "A role for aquaporin-4 in fluid regulation in the inner retina". Visual Neuroscience. 26 (2): 159–65. doi:10.1017/S0952523809090038. PMID 19366470. S2CID 25856225.
- Matsushita T, Matsuoka T, Isobe N, Kawano Y, Minohara M, Shi N, et al. (February 2009). "Association of the HLA-DPB1*0501 allele with anti-aquaporin-4 antibody positivity in Japanese patients with idiopathic central nervous system demyelinating disorders". Tissue Antigens. 73 (2): 171–6. doi:10.1111/j.1399-0039.2008.01172.x. PMID 19140826.
- Rubino E, Rainero I, Vaula G, Crasto F, Gravante E, Negro E, et al. (April 2009). "Investigating the genetic role of aquaporin4 gene in migraine". The Journal of Headache and Pain. 10 (2): 111–4. doi:10.1007/s10194-009-0100-z. PMC 3451641. PMID 19209385.
- Benarroch EE (December 2007). "Aquaporin-4, homeostasis, and neurologic disease". Neurology. 69 (24): 2266–8. doi:10.1212/01.wnl.0000286385.59836.e2. PMID 18071147. S2CID 43434968.
- Ho JD, Yeh R, Sandstrom A, Chorny I, Harries WE, Robbins RA, et al. (May 2009). "Crystal structure of human aquaporin 4 at 1.8 A and its mechanism of conductance". Proceedings of the National Academy of Sciences of the United States of America. 106 (18): 7437–42. Bibcode:2009PNAS..106.7437H. doi:10.1073/pnas.0902725106. PMC 2678640. PMID 19383790.
- Assereto S, Mastrototaro M, Stringara S, Gazzerro E, Broda P, Nicchia GP, et al. (July 2008). "Aquaporin-4 expression is severely reduced in human sarcoglycanopathies and dysferlinopathies". Cell Cycle. 7 (14): 2199–207. doi:10.4161/cc.7.14.6272. PMID 18641458.
- Dibas A, Yang MH, He S, Bobich J, Yorio T (September 2008). "Changes in ocular aquaporin-4 (AQP4) expression following retinal injury". Molecular Vision. 14: 1770–83. PMC 2559817. PMID 18836575.
- Sorani MD, Zador Z, Hurowitz E, Yan D, Giacomini KM, Manley GT (August 2008). "Novel variants in human Aquaporin-4 reduce cellular water permeability". Human Molecular Genetics. 17 (15): 2379–89. doi:10.1093/hmg/ddn138. PMC 2733814. PMID 18511455.
- Ng WH, Hy JW, Tan WL, Liew D, Lim T, Ang BT, Ng I (March 2009). "Aquaporin-4 expression is increased in edematous meningiomas". Journal of Clinical Neuroscience. 16 (3): 441–3. doi:10.1016/j.jocn.2008.04.028. PMID 19153045. S2CID 40873451.
- Nishiyama S, Ito T, Misu T, Takahashi T, Kikuchi A, Suzuki N, et al. (June 2009). "A case of NMO seropositive for aquaporin-4 antibody more than 10 years before onset". Neurology. 72 (22): 1960–1. doi:10.1212/WNL.0b013e3181a82621. PMID 19487655. S2CID 207115445.
- Misu T, Fujihara K, Itoyama Y (May 2008). "[Neuromyelitis optica and anti-aquaporin 4 antibody--an overview]". Brain and Nerve = Shinkei Kenkyu No Shinpo (in Japanese). 60 (5): 527–37. PMID 18516975.
- Dibas AI, Mia AJ, Yorio T (December 1998). "Aquaporins (water channels): role in vasopressin-activated water transport". Proceedings of the Society for Experimental Biology and Medicine. 219 (3): 183–99. doi:10.3181/00379727-219-44332. PMID 9824541. S2CID 28952956.
- Doi H, Matsushita T, Isobe N, Matsuoka T, Minohara M, Ochi H, Kira JI (March 2009). "Hypercomplementemia at relapse in patients with anti-aquaporin-4 antibody". Multiple Sclerosis. 15 (3): 304–10. doi:10.1177/1352458508099139. PMID 19028829. S2CID 25896873.
- Pittock SJ, Lennon VA (May 2008). "Aquaporin-4 autoantibodies in a paraneoplastic context". Archives of Neurology. 65 (5): 629–32. doi:10.1001/archneur.65.5.629. PMID 18474738.
- Matsushita T, Isobe N, Matsuoka T, Shi N, Kawano Y, Wu XM, et al. (July 2009). "Aquaporin-4 autoimmune syndrome and anti-aquaporin-4 antibody-negative opticospinal multiple sclerosis in Japanese". Multiple Sclerosis. 15 (7): 834–47. doi:10.1177/1352458509104595. PMID 19465451. S2CID 19372571.
- Graber DJ, Levy M, Kerr D, Wade WF (May 2008). "Neuromyelitis optica pathogenesis and aquaporin 4". Journal of Neuroinflammation. 5: 22. doi:10.1186/1742-2094-5-22. PMC 2427020. PMID 18510734.
- Baba T, Nakashima I, Kanbayashi T, Konno M, Takahashi T, Fujihara K, et al. (February 2009). "Narcolepsy as an initial manifestation of neuromyelitis optica with anti-aquaporin-4 antibody". Journal of Neurology. 256 (2): 287–8. doi:10.1007/s00415-009-0139-4. PMID 19266146. S2CID 26870205.
- Xu H, Zhang Y, Wei W, Shen L, Wu W (January 2009). "Differential expression of aquaporin-4 in human gastric normal and cancer tissues". Gastroenterologie Clinique et Biologique. 33 (1 Pt 1): 72–6. doi:10.1016/j.gcb.2008.07.010. PMID 19112001.
- Kadohira I, Abe Y, Nuriya M, Sano K, Tsuji S, Arimitsu T, et al. (December 2008). "Phosphorylation in the C-terminal domain of Aquaporin-4 is required for Golgi transition in primary cultured astrocytes". Biochemical and Biophysical Research Communications. 377 (2): 463–468. doi:10.1016/j.bbrc.2008.09.155. PMID 18854171.
External links
[edit]- Aquaporin+4 at the U.S. National Library of Medicine Medical Subject Headings (MeSH)
- Human AQP4 genome location and AQP4 gene details page in the UCSC Genome Browser.
- Overview of all the structural information available in the PDB for UniProt: P55087 (Aquaporin-4) at the PDBe-KB.