Most Recent Publications
1. McQuade A., Kang Y., Hasselmann J., Jairaman A., Sotelo A., Coburn M., Shabestari S.K., Chadarevian J.P., Fote G., Tu C.H., Danhash E., Silva J., Martinez E., Cotman C., Prieto G.A., Thomson L.M., Steffan J.S., Smith I., Davtyan H., Cahalan M., Cho H., Blurton-Jones M., Gene expression and functional deficits underlie TREM2-knockout microglia responses in human models of Alzheimer's disease, Nature Communications, November 2020; 11(1), 5370
2. Rodriguez-Ortiz C.J., Prieto G.A., Martini A.C., Forner S., Trujillo-Estrada L., LaFerla F.M., Baglietto D., Cotman C.W., Kitazawa M., miR-181a inhibition rescues synaptic plasticity and memory in models of Alzheimer’s disease, Aging cell, November 2020; 19(3), e13118
3. Berchtold N.C., Prieto G.A., Phelan P., Gillen D.L., Baldi P., Bennett D.A. Buchman A.S. and Cotman C.W., Hippocampal gene expression patterns linked to late-life physical activity in humans oppose age and AD-related transcriptional decline, Neurobiol Aging, November 2019; 78, 142-154
4. Forner S., Martini A.C., Prieto G.A., Dang C.T., Trujillo-Estrada L., da Cunha C., Andrews E.J., Phan J., Vu J., Levites Y., Cruz P.E., Ager R., Medeiros R., Cotman C.W., Golde T., Baglietto-Vargas D., LaFerla F.M. , Intra- and extracellular amyloid-β overexpression via AAV-mediated gene transfer impairs memory and synaptic plasticity in the hippocampus, Scientific Reports, November 2019; 9, 15936
5. Prieto G.A.*, Smith E.D., Tong L., Nguyen M., Cotman C.W., Inhibition of LTP-induced translation by IL-1β reduces the level of newly synthesized proteins in hippocampal dendrites, ACS Chemical Neuroscience, November 2019; 10(3), 1197-1203.
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Publicaciones
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1. McQuade A., Kang Y., Hasselmann J., Jairaman A., Sotelo A., Coburn M., Shabestari S.K., Chadarevian J.P., Fote G., Tu C.H., Danhash E., Silva J., Martinez E., Cotman C., Prieto G.A., Thomson L.M., Steffan J.S., Smith I., Davtyan H., Cahalan M., Cho H., Blurton-Jones M., Gene expression and functional deficits underlie TREM2-knockout microglia responses in human models of Alzheimer's disease, Nature Communications, November 2020; 11(1), 5370
2. Rodriguez-Ortiz C.J., Prieto G.A., Martini A.C., Forner S., Trujillo-Estrada L., LaFerla F.M., Baglietto D., Cotman C.W., Kitazawa M., miR-181a inhibition rescues synaptic plasticity and memory in models of Alzheimer’s disease, Aging cell, November 2020; 19(3), e13118
3. Berchtold N.C., Prieto G.A., Phelan P., Gillen D.L., Baldi P., Bennett D.A. Buchman A.S. and Cotman C.W., Hippocampal gene expression patterns linked to late-life physical activity in humans oppose age and AD-related transcriptional decline, Neurobiol Aging, November 2019; 78, 142-154
4. Forner S., Martini A.C., Prieto G.A., Dang C.T., Trujillo-Estrada L., da Cunha C., Andrews E.J., Phan J., Vu J., Levites Y., Cruz P.E., Ager R., Medeiros R., Cotman C.W., Golde T., Baglietto-Vargas D., LaFerla F.M. , Intra- and extracellular amyloid-β overexpression via AAV-mediated gene transfer impairs memory and synaptic plasticity in the hippocampus, Scientific Reports, November 2019; 9, 15936
5. Prieto G.A.*, Smith E.D., Tong L., Nguyen M., Cotman C.W., Inhibition of LTP-induced translation by IL-1β reduces the level of newly synthesized proteins in hippocampal dendrites, ACS Chemical Neuroscience, November 2019; 10(3), 1197-1203.
6. Trujillo-Estrada L., Nguyen C., Cunha C., Cai L., Forner S., Martini A.C., Ager R.R., Prieto G.A., Cotman C.W., Baglietto-Vargas D., LaFerla F.M., Tau underlies synaptic and cognitive deficits for type 1, but not type 2 diabetes mouse models, Aging cell, November 2019; 18(3), e12919
7. Belloso-Iguerategui A., Zamarbide M., Merino-Galan L., Rodríguez-Chinchilla T., Gago B., Santamaria E., Fernández-Irigoyen J., Cotman C.W., Prieto G.A., Quiroga-Varela A., Rodríguez-Oroz M.C. , Hippocampal synaptic failure is an early event in experimental parkinsonism with subtle cognitive deficit, Brain, December 2023; 146(12), 4949–4963
8. Lautrup S., Holst C.M., Yde A., Asmussen S., Larsen K., Richner M., Vægter C.B., Prieto G.A., Berchtold N.C., Cotman C.W., Stevnsner T. , The role of aging and BDNF signalling in expression of base excision repair genes in the human brain, Aging cell, September 2023; 22(9), e13905
9. Prieto G.A.*, Cotman C.W. , Early bioenergetic and autophagy impairments at the Parkinson’s disease synapse, Brain, June 2022; 145(6), 1877-1879
10. Prieto G.A.*, Tong L., Smith E.D., Cotman C.W., TNFα and IL-1β but not IL-18 suppresses hippocampal long-term potentiation directly at the synapse, Neurochemical Research, November 2019; 44(1), 49-60
11. Baglietto D., Prieto G.A., Limon A., Forner S., Rodriguez-Ortiz C.J., Ikemura K., Ager R.R., Medeiros R., Trujillo-Estrada L., Martini A.C., Kitazawa M, Davila J.C., Cotman C.W., Gutierrez A., LaFerla F.M., AMPA signaling and actin cytoskeleton impairments underlie early synaptic dysfunction in a mouse model of Alzheimer’s disease, Aging cell, August 2018; 17(4), e12791
12. Tong L., Prieto G.A., Cotman C.W., IL-1β suppresses cLTP-induced surface expression of GluA1 and actin polymerization via ceramide-mediated Src activation, Journal Of Neuroinflammation, April 2018; 15(1), 127
13. Prieto G.A.*, Cotman C.W., On the road towards the global analysis of human synapses, Neural Regeneration Research, October 2017; 12(10), 1586-1589
14. Prieto G.A.* , Abnormalities of dopamine D3 receptor signaling in the diseased brain, J Cent Nerv Syst Dis, August 2017; 9, 1179573517726335
15. Prieto G.A.*, Cotman C.W., Cytokines and cytokine networks target neurons to modulate long-term potentiation, Cytokine & Growth Factor Rev, April 2017; 34, 27-33
16. Carlos, A.J., Tong L., Prieto G.A., and Cotman C.W., IL-1b impairs retrograde flow of BDNF signaling by attenuating endosome trafficking, Journal Of Neuroinflammation, February 2017; 14(1), 29
17. Prieto G.A.*, Trieu B.H., Dang C.T., Bilousova T., Gylys K.H., Berchtold N.C., Lynch G. and Cotman C.W., Pharmacological rescue of long-term potentiation in Alzheimer diseased synapses, Journal Of Neuroscience, February 2017; 1(37), 1197-1212
18. Snigdha S., Prieto G.A., Kirakosian A., Loertscher B.M., Dieskau A.P., Overman L.E., Cotman C.W., H3K9me3 Inhibition Improves Memory, Promotes Spine Formation, and Increases BDNF Levels in the Aged Hippocampus, Journal Of Neuroscience, December 2016; 36(12), 3611-22
19. Prieto G.A.*, Snigdha S., Baglietto-Vargas D., Smith E.D., Berchtold N.C., Tong L., Ajami D., LaFerla F.M., Rebek Jr. J*. and Cotman C.W.*, Synapse-specific IL-1 receptor subunit reconfiguration augments vulnerability to IL-1 in the aged hippocampus, Proc Natl Acad Sci USA, September 2015; 112(36), E5078-87
20. Hernández-Flores T., Hernández-González O., Pérez-Ramírez M.B., Lara-González E., Arias-García M.A., Duhne M., Perez-Burgos A., Prieto G.A., Figueroa A., Galarraga E., Bargas J., Modulation of direct pathway striatal projection neurons by muscarinic M4–type receptors, Neuropharmacology, February 2015; 89, 232-244
21. Hernández-González O., Hernández-Flores T., Prieto G.A., Perez-Burgos A., Arias-Garcia M.A., Galarraga E., Bargas J, Modulation of Ca2+ currents by sequential and simultaneous activation of adenosine A1 and A2A receptors in striatal projection neurons, Purinergic Signalling, September 2014; 10(2), 269-281
22. Smith E.D., Prieto G.A., Tong L., Sears-Kraxberger I., Rice J.D., Steward O., Cotman C.W., Rapamycin and Interleukin-1b impair Brain-Derived Neurotrophic Factor–dependent neuron survival by modulating autophagy, Journal Of Biological Chemistry, July 2014; 289(30), 20615-20629
23. Snigdha S., Smith E.D., Prieto G.A., Cotman C.W., Caspase-3 activation as a bifurcation point between plasticity and cell death, Neurosci Bull, December 2012; 28(1), 14-24
24. Tong L., Prieto G.A., Kramar E., Smith E.D., Cribbs D., Lynch G., Cotman C.W., BDNF-dependent synaptic plasticity is suppressed by IL-1b via p38 MAPK, Journal Of Neuroscience, December 2012; 32(49), 17714 –17724
25. Prieto G.A., Perez-Burgos A., Palomero-Rivero M., Galarraga E., Drucker-Colin R., Bargas J., Up-regulation of D2-class signaling in dopamine-denervated striatum is in part mediated by D3 receptors acting on CaV2.1 channels via PIP2 depletion, Journal Of Neurophysiology, May 2011; 105(5), 2260-2274
26. Prieto G.A., Progression of endometriosis to cancer: too MUCh FoxP3+ regulatory T cells response?, Disease Models & Mechanisms, March 2011; 4(2), 139-140
27. Perez-Burgos A., Prieto G.A., Galarraga E., Bargas J., CaV2.1 is modulated by muscarinic M1 receptors through phosphoinositides hydrolysis in neostriatal neurons, Neuroscience, January 2010; 165(2), 293-299
28. Prieto G.A., Perez-Burgos A., Fiordelisio T., Salgado H., Galarraga E., Drucker-Colin R., Bargas J., Dopamine D2-class receptor supersensitivity as reflected in Ca2+ current modulation in neostriatal neurons, Neuroscience, December 2009; 164(4), 345-350
29. Perez-Burgos A., Perez-Rosello T., Salgado H., Flores E., Prieto G.A., Figueroa A., Galarraga E., Bargas J., Muscarinic M1 modulation of N and L types currents is mediated by protein kinase C in neostriatal neurons, Neuroscience, September 2008; 155(4), 1079-1097
30. Prieto G.A. & Rosenstein Y., Oestradiol potentiates the suppressive function of human CD4+CD25+ regulatory T cells by promoting their proliferation, Immunology, May 2006; 118, 58-65
31. Prieto G.A., Cabral A.R., Zapata-Zuñiga M., Simón A.J., Villa A.R., Alarcón-Segovia D. and Cabiedes J., Valine/Valine genotype at the position 247 of the 2-glicoprotein-I gene in Mexican patients with primary anti-phospholipid syndrome. Association with anti-2-glycoprotein-I antibodies, Arthritis Rheumatism, February 2003; 48(2), 471-474
32. Prieto G.A., Cabral A.R., Cabiedes J., b2-Glycoprotein-I polymorphism. Its role in antiphospholipid syndrome, Revista Española de Reumatología, December 2002; 29(8), 396-404
33. Prieto G.A., Villamar-Cruz O., Saqui-Salces M., Neri-Gómez T., Almaraz-Nieves A., Hernández-Molina V.I., Valdez-Rodríguez H., Camacho-Arroyo I., How do steroid hormones work?, Educacion Quimica, December 2002; 14(4), 196-201