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Laminin 111

May 08, 2024

Laminin–111 (also "laminin–1") is a protein of the type known as laminin isoforms. It was among the first of the laminin isoforms to be discovered.[2] The "111" identifies the isoform's chain composition of α1β1γ1.[2] This protein plays an important role in embryonic development. Injections of this substance are used in treatment for Duchenne muscular dystrophy, and its cellular action may potentially become a focus of study in cancer research.

A schematic diagram of the structure of laminin 111 and several hypothesized binding sites of cell-surface receptors.[1]

Distribution edit

The distribution of the different laminin isoforms is tissue-specific.[3] Laminin–111 is predominantly expressed in the embryonic epithelium, but can also be found in some adult epithelium such as the kidney, liver, testis, ovaries, and brain blood vessels.[3][4] Different levels of expression of α chains have a large influence on the differential expression of laminin, thereby determining the isoform produced.[3] From studying a mouse model, it was found that transcription factors present in the parietal endoderm regulate the expression of the α1 and large amounts of laminin-111 are produced.[3]

Functions edit

The synthesized laminin–111 formed in an embryo contributes to the formation of Reichert’s membrane, a thick extra-embryonic basement membrane.[5] When the laminin α1 chain is deficient in an organism, an embryo dies, likely as a result of a defective Reichert’s membrane due to a lack of laminin–111 being produced.[4] Laminin-111 has been identified as a crucial molecule for development of the embryo as shown by the consequences that occur when laminin-111 is lacking.

Laminin-111 is expressed very early on in development and is present in the blastocyst.[1] When various parts of the trimer chains are knocked out by mutations, devastating consequences occur in the embryo. If the β1 or γ1 chains of laminin-111 are absent the basement membrane fails to form.[1] Without a basement membrane cells have nowhere to attach and all dependent activities such as cell migration and epithelial formation can no longer occur.[5][1] The self-assembly and tight network formation by laminin-111 are essential for holding the basement membrane together.

Although it is expressed abundantly during the early embryonic stage, laminin-111 is mostly absent in adults.[5] The injection of laminin-111, however, helps with Duchenne muscular dystrophy, a neuromuscular disease in which the connection between the extracellular matrix and cell cytoskeleton is lost.[6][7] Increased levels of laminin-111 triggered an increase in the expression of α7-integrin receptor and this prevented onset of the disease.[7] Additionally, the presence of laminin-111 increased muscle strength and protected it from injury.[7] When injected with myoblast transplants, laminin–111 decreased degeneration and inflammatory reactions and increased the success of the transplantation.[6] The experiments utilizing laminin–111 as a source of therapy for Duchenne muscular dystrophy suggest that it has protective qualities in addition to its association with muscle tissue.

Mechanisms of action edit

Cell adhesion edit

 
A schematic diagram of the laminin 111-α6β4 integrin interaction in hemidesmosomes for cell adhesion in epithelial tissue.

In cell adhesion laminin-111 and other isoforms are important proteins that anchor cells to the extracellular matrix (ECM).[8] The linkage between cells and the ECM is formed by binding cell surface receptors to one end of the laminin α chain and binding ECM components to another region of the laminin.[8] Globular domains (G-Domain) of the α chain are the regions on laminin-111 that allow the binding of integrins, glycoproteins, sulfated glycolipids and dystroglycan.[8]

Cell signaling edit

Besides anchoring cells to the ECM, laminins are also involved in the signalling of cells and other components of the ECM.[8] Even though there is not a general mechanism that applies to all laminins in signalling, there are some common pathways that can be seen in more than one isoform of laminin.[8] For example, the PI3K/AKT pathway is used by laminin-111 (promotes cell-survival), 511 (prevents apoptosis with laminin 521), and 521 (stabilizes pluripotency of human embryonic stem cells).[8] The pathway begins with the adhesion of the cell to the ECM for activation of the lipid-associated PI3K.[9] Once PI3K is activated, it will localize AKT that is in the cytoplasm to the cell membrane where AKT is then phosphorylated to promote cell survival.[8]

Neurite outgrowth edit

When α chains[10] of laminin-111 bind to cell surface receptors integrins α1β1, α3β1, α4β1, α6β1 and Cdc42 GTPase are activated.[11] The activated GTPase then activates Cdc42 which further activates c-Jun kinases and phosphorylation of Jun.[11] Activation of c-Jun kinases leads to high levels of c-Jun expression which results in neurite outgrowth.[12] The synthesis of Nitric Oxides resides somewhere in the pathway and is yet to be determined.[10] Weston et al. (2000) proposed that the synthesis of Nitric Oxide may be upstream to the activation of Cdc42.[11] Nonetheless, Nitric Oxide synthesis is shown to be an important element in laminin-mediated neurite outgrowth.[10]

Future applications edit

Dynamic reciprocity theory edit

The dynamic reciprocity theory states that a cell’s fate depends on the exchange of chemical signals between the extracellular matrix and the nucleus of the cell.[13] Focussing on connections between laminin-111 and other proteins involved in cell-to-cell communication could spark further research that may help to further our current understanding of cancer and how to slow down or stop its process.

Actin plays a role in nuclear activity which is an important process with regard to cell signalling influencing cell differentiation and replication. It has been suggested that actin interactions directly influence gene transcription as it interacts with chromatin remodeling complexes as well as RNA polymerases I, II and III.[14] However, the exact role that actin plays in transcription has not yet been determined.

Implications for cancer research edit

A group of distinguished scientists[15] from the U.S. Department of Energy’s (DOE) Lawrence Berkeley National Laboratory (Berkeley Lab) did a recent study on how laminin-111 interacts with the cytoplasmic protein, actin. Their study gave the following conclusions:

The biological process in which a cell ceases to continue growing and dividing is called quiescence (the opposite of cancer). ECM laminin-111 sends chemical signals that promotes adhesion of a cell and its ECM. Although the mechanism is unknown, these signals have also been linked to cell quiescence. Adding laminin-111 to breast epithelial cells leads to quiescence by altering nuclear actin. High levels of laminin-111 deplete nuclear actin which induces quiescence of cells. However, when an isoform of actin, that cannot exit a cell’s nucleus, is active, cells continue to grow and divide even when laminin levels are high. ECM laminin-111 levels in a normal breast cell are significantly higher than laminin-111 levels in tissues of cancerous breast tissue. Simply increasing laminin levels in the ECM of cancerous breast cells is not enough to lead to quiescence. Therefore, it is implied that there are multiple factors working together influencing cell-to-cell communication. How laminin-111 and nuclear actin communicate is one of these factors. Laminin-111 could be the physiological regulator of nuclear actin which would suggest that depleting nuclear actin could be a key to achieving cell quiescence and returning to homeostatic operating conditions. Decreased expression of laminin-111 and the growth-inhibitory signals that it produces in malignant myoepithelial cells begs for further investigation with regard to cancer research. Therefore, further exploration of laminin-111 and nuclear actin interaction could be a target for future experimental therapeutic investigations.[15]

References edit

  1. ^ a b c d Colognato, H., & Yurchenco, P. D. (2000). Form and function: The laminin family of heterotrimers. Developmental Dynamics, 218(2): 213-234.
  2. ^ a b Aumailley, M., Bruckner-Tuderman, L., Carter, W. G., Deutzmann, R., Edgar, D., Ekblom, P., & Yurchenco, P. D. (2005). A simplified laminin nomenclature. Matrix biology, 24(5): 326-332.
  3. ^ a b c d Durbeej, M. (2010). Laminins. Cell and Tissue Research, 339(1): 259-268.
  4. ^ a b Ekblom, M., Falk, M., Salmivirta, K., Durbeej, M., & Ekblom, P. (1998). Laminin isoforms and epithelial development. Annals of the New York Academy of Sciences, 857(1): 194-211.
  5. ^ a b c Minler, J.H. and Yurchenco P.D. (2004). Laminin functions in tissue morphogenesis. Annual Review of Cell and Developmental Biology, 20:255-284.
  6. ^ a b Goudenege, S., Lamarre, Y., Dumont, N., Rousseau, J., Frenette , J., Skuk, D. and Tremblay, J.P. (2010). Laminin-111: A potential therapeutic agent for Duchenne muscular dystrophy. Molecular Therapy, 18(12): 2155-2163. doi:10.1038/mt.2010.165.
  7. ^ a b c Rooney, J. E., Gurpur, P. B., & Burkin, D. J. (2009). Laminin-111 protein therapy prevents muscle disease in the mdx mouse model for Duchenne muscular dystrophy. Proceedings of the National Academy of Sciences, 106(19): 7991-7996.
  8. ^ a b c d e f g Domogatskaya, An., Rodin, S., and Tryggvason, K. (2012). Functional diversity of laminins. Annual Review of Cell and Developmental Biology, 28: 523-553.
  9. ^ Langenbach, K.J. and Rando, T.A. (2002). Inhibition of dystroglycan binding to laminin disrupts the PI3K/AKT pathway and cell-survival signalling in muscle cells. Muscle and Nerve, 26: 644-653.
  10. ^ a b c Rialas, C. M., Nomizu, M., Patterson, M., Kleinman, H.K., Weston, C.A., and Weeks, B.S. (2000). Nitric Oxide mediates laminin-induced neurite outgrowth in PC12 cells. Experimental Cell Research, 260(2): 268-276.
  11. ^ a b c Weston, C.A., Anova, L., Rialas, C., Prives, J.M., and Weeks, B.S. (2000). Laminin-1 activates Cdc42 in the mechanism of laminin-1-mediated neurite outgrowth. Experimental Cell Research, 260: 374-378.
  12. ^ Dragunow, M., Xu, R., Walkton, M., Woodgate, A., Lawlor, P., MacGibbon, G.A., Young, D., Gibbons, H., Lipski, J., Muravlev, A., Pearson, A., and During, M. (2000). Thus, C-Jun promotes neurite outgrowth and survival in PC12 cells. Molecular Brain Research, 83(1-2): 20-33.
  13. ^ Schultz GS, Davidson JM, Kirsner RS, Bornstein P, Herman IM. (2011). Dynamic reciprocity in the wound microenvironment. Wound Repair Regen., 19: 134–148.
  14. ^ Zheng B, Han M, Bernier M, Wen JK. (2009). Nuclear actin and actin-binding proteins in the regulation of transcription and gene expression. FEBS J., 276: 2669–2685.
  15. ^ a b Spencer VA, Costes S, Inman JL, Xu R, Chen J, Hendzel MJ, Bissell MJ. (2011). Depletion of nuclear actin is a key mediator of quiescence in epithelial cells. J Cell Sci., 124: 123–132.

May 08, 2024
laminin, laminin, also, laminin, protein, type, known, laminin, isoforms, among, first, laminin, isoforms, discovered, identifies, isoform, chain, composition, α1β1γ1, this, protein, plays, important, role, embryonic, development, injections, this, substance, . Laminin 111 also laminin 1 is a protein of the type known as laminin isoforms It was among the first of the laminin isoforms to be discovered 2 The 111 identifies the isoform s chain composition of a1b1g1 2 This protein plays an important role in embryonic development Injections of this substance are used in treatment for Duchenne muscular dystrophy and its cellular action may potentially become a focus of study in cancer research A schematic diagram of the structure of laminin 111 and several hypothesized binding sites of cell surface receptors 1 Contents 1 Distribution 2 Functions 3 Mechanisms of action 3 1 Cell adhesion 3 2 Cell signaling 3 3 Neurite outgrowth 3 4 Future applications 3 4 1 Dynamic reciprocity theory 3 4 2 Implications for cancer research 4 ReferencesDistribution editThe distribution of the different laminin isoforms is tissue specific 3 Laminin 111 is predominantly expressed in the embryonic epithelium but can also be found in some adult epithelium such as the kidney liver testis ovaries and brain blood vessels 3 4 Different levels of expression of a chains have a large influence on the differential expression of laminin thereby determining the isoform produced 3 From studying a mouse model it was found that transcription factors present in the parietal endoderm regulate the expression of the a1 and large amounts of laminin 111 are produced 3 Functions editThe synthesized laminin 111 formed in an embryo contributes to the formation of Reichert s membrane a thick extra embryonic basement membrane 5 When the laminin a1 chain is deficient in an organism an embryo dies likely as a result of a defective Reichert s membrane due to a lack of laminin 111 being produced 4 Laminin 111 has been identified as a crucial molecule for development of the embryo as shown by the consequences that occur when laminin 111 is lacking Laminin 111 is expressed very early on in development and is present in the blastocyst 1 When various parts of the trimer chains are knocked out by mutations devastating consequences occur in the embryo If the b1 or g1 chains of laminin 111 are absent the basement membrane fails to form 1 Without a basement membrane cells have nowhere to attach and all dependent activities such as cell migration and epithelial formation can no longer occur 5 1 The self assembly and tight network formation by laminin 111 are essential for holding the basement membrane together Although it is expressed abundantly during the early embryonic stage laminin 111 is mostly absent in adults 5 The injection of laminin 111 however helps with Duchenne muscular dystrophy a neuromuscular disease in which the connection between the extracellular matrix and cell cytoskeleton is lost 6 7 Increased levels of laminin 111 triggered an increase in the expression of a7 integrin receptor and this prevented onset of the disease 7 Additionally the presence of laminin 111 increased muscle strength and protected it from injury 7 When injected with myoblast transplants laminin 111 decreased degeneration and inflammatory reactions and increased the success of the transplantation 6 The experiments utilizing laminin 111 as a source of therapy for Duchenne muscular dystrophy suggest that it has protective qualities in addition to its association with muscle tissue Mechanisms of action editCell adhesion edit nbsp A schematic diagram of the laminin 111 a6b4 integrin interaction in hemidesmosomes for cell adhesion in epithelial tissue In cell adhesion laminin 111 and other isoforms are important proteins that anchor cells to the extracellular matrix ECM 8 The linkage between cells and the ECM is formed by binding cell surface receptors to one end of the laminin a chain and binding ECM components to another region of the laminin 8 Globular domains G Domain of the a chain are the regions on laminin 111 that allow the binding of integrins glycoproteins sulfated glycolipids and dystroglycan 8 Cell signaling edit Besides anchoring cells to the ECM laminins are also involved in the signalling of cells and other components of the ECM 8 Even though there is not a general mechanism that applies to all laminins in signalling there are some common pathways that can be seen in more than one isoform of laminin 8 For example the PI3K AKT pathway is used by laminin 111 promotes cell survival 511 prevents apoptosis with laminin 521 and 521 stabilizes pluripotency of human embryonic stem cells 8 The pathway begins with the adhesion of the cell to the ECM for activation of the lipid associated PI3K 9 Once PI3K is activated it will localize AKT that is in the cytoplasm to the cell membrane where AKT is then phosphorylated to promote cell survival 8 Neurite outgrowth edit When a chains 10 of laminin 111 bind to cell surface receptors integrins a1b1 a3b1 a4b1 a6b1 and Cdc42 GTPase are activated 11 The activated GTPase then activates Cdc42 which further activates c Jun kinases and phosphorylation of Jun 11 Activation of c Jun kinases leads to high levels of c Jun expression which results in neurite outgrowth 12 The synthesis of Nitric Oxides resides somewhere in the pathway and is yet to be determined 10 Weston et al 2000 proposed that the synthesis of Nitric Oxide may be upstream to the activation of Cdc42 11 Nonetheless Nitric Oxide synthesis is shown to be an important element in laminin mediated neurite outgrowth 10 Future applications edit Dynamic reciprocity theory edit The dynamic reciprocity theory states that a cell s fate depends on the exchange of chemical signals between the extracellular matrix and the nucleus of the cell 13 Focussing on connections between laminin 111 and other proteins involved in cell to cell communication could spark further research that may help to further our current understanding of cancer and how to slow down or stop its process Actin plays a role in nuclear activity which is an important process with regard to cell signalling influencing cell differentiation and replication It has been suggested that actin interactions directly influence gene transcription as it interacts with chromatin remodeling complexes as well as RNA polymerases I II and III 14 However the exact role that actin plays in transcription has not yet been determined Implications for cancer research edit A group of distinguished scientists 15 from the U S Department of Energy s DOE Lawrence Berkeley National Laboratory Berkeley Lab did a recent study on how laminin 111 interacts with the cytoplasmic protein actin Their study gave the following conclusions The biological process in which a cell ceases to continue growing and dividing is called quiescence the opposite of cancer ECM laminin 111 sends chemical signals that promotes adhesion of a cell and its ECM Although the mechanism is unknown these signals have also been linked to cell quiescence Adding laminin 111 to breast epithelial cells leads to quiescence by altering nuclear actin High levels of laminin 111 deplete nuclear actin which induces quiescence of cells However when an isoform of actin that cannot exit a cell s nucleus is active cells continue to grow and divide even when laminin levels are high ECM laminin 111 levels in a normal breast cell are significantly higher than laminin 111 levels in tissues of cancerous breast tissue Simply increasing laminin levels in the ECM of cancerous breast cells is not enough to lead to quiescence Therefore it is implied that there are multiple factors working together influencing cell to cell communication How laminin 111 and nuclear actin communicate is one of these factors Laminin 111 could be the physiological regulator of nuclear actin which would suggest that depleting nuclear actin could be a key to achieving cell quiescence and returning to homeostatic operating conditions Decreased expression of laminin 111 and the growth inhibitory signals that it produces in malignant myoepithelial cells begs for further investigation with regard to cancer research Therefore further exploration of laminin 111 and nuclear actin interaction could be a target for future experimental therapeutic investigations 15 References edit a b c d Colognato H amp Yurchenco P D 2000 Form and function The laminin family of heterotrimers Developmental Dynamics 218 2 213 234 a b Aumailley M Bruckner Tuderman L Carter W G Deutzmann R Edgar D Ekblom P amp Yurchenco P D 2005 A simplified laminin nomenclature Matrix biology 24 5 326 332 a b c d Durbeej M 2010 Laminins Cell and Tissue Research 339 1 259 268 a b Ekblom M Falk M Salmivirta K Durbeej M amp Ekblom P 1998 Laminin isoforms and epithelial development Annals of the New York Academy of Sciences 857 1 194 211 a b c Minler J H and Yurchenco P D 2004 Laminin functions in tissue morphogenesis Annual Review of Cell and Developmental Biology 20 255 284 a b Goudenege S Lamarre Y Dumont N Rousseau J Frenette J Skuk D and Tremblay J P 2010 Laminin 111 A potential therapeutic agent for Duchenne muscular dystrophy Molecular Therapy 18 12 2155 2163 doi 10 1038 mt 2010 165 a b c Rooney J E Gurpur P B amp Burkin D J 2009 Laminin 111 protein therapy prevents muscle disease in the mdx mouse model for Duchenne muscular dystrophy Proceedings of the National Academy of Sciences 106 19 7991 7996 a b c d e f g Domogatskaya An Rodin S and Tryggvason K 2012 Functional diversity of laminins Annual Review of Cell and Developmental Biology 28 523 553 Langenbach K J and Rando T A 2002 Inhibition of dystroglycan binding to laminin disrupts the PI3K AKT pathway and cell survival signalling in muscle cells Muscle and Nerve 26 644 653 a b c Rialas C M Nomizu M Patterson M Kleinman H K Weston C A and Weeks B S 2000 Nitric Oxide mediates laminin induced neurite outgrowth in PC12 cells Experimental Cell Research 260 2 268 276 a b c Weston C A Anova L Rialas C Prives J M and Weeks B S 2000 Laminin 1 activates Cdc42 in the mechanism of laminin 1 mediated neurite outgrowth Experimental Cell Research 260 374 378 Dragunow M Xu R Walkton M Woodgate A Lawlor P MacGibbon G A Young D Gibbons H Lipski J Muravlev A Pearson A and During M 2000 Thus C Jun promotes neurite outgrowth and survival in PC12 cells Molecular Brain Research 83 1 2 20 33 Schultz GS Davidson JM Kirsner RS Bornstein P Herman IM 2011 Dynamic reciprocity in the wound microenvironment Wound Repair Regen 19 134 148 Zheng B Han M Bernier M Wen JK 2009 Nuclear actin and actin binding proteins in the regulation of transcription and gene expression FEBS J 276 2669 2685 a b Spencer VA Costes S Inman JL Xu R Chen J Hendzel MJ Bissell MJ 2011 Depletion of nuclear actin is a key mediator of quiescence in epithelial cells J Cell Sci 124 123 132 Retrieved from https en wikipedia org w index php title Laminin 111 amp oldid 1048857280, wikipedia, wiki, book, books, library,

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