Publicaciones
...menos
1. Fernández C, Morales T*, Perspectives on Homeostasis of Lactation: Back to the Mother, Editorial, Molecular And Cellular Endocrinology, agosto de 2023; 574(111979), 3
online
2. Muñoz-Mayorga D, Tovar A, Díaz-Muñoz M, Morales T*, Lactation attenuates pro-oxidant reactions in the maternal brain, Molecular and Cellular Endocrinology, abril de 2023; 565(111888), 8
online
3. Elvira C Arellanes-Licea, José Ávila-Mendoza, Elizabeth C Ramírez-Martínez,
Eugenia Ramos, Nancy Uribe-González, Carlos Arámburo, Teresa Morales*,
Maricela Luna*, Upregulation of GH but not IGF1 in the hippocampus of the lactating dam after kainic acid injury, Endocrine Connections, julio de 2018; 7, 258-267
4. Ilektra Anagnostou, Julio Reyes-Mendoza, Teresa Morales*, Glial cells as mediators of protective actions of prolactin (PRL) in the CNS, General And Comparative Endocrinology, junio de 2018; 265, 106-110
5. Luna-Illades C, Morales T*, Miranda-Anaya M, Decreased Food Anticipatory Activity of Obese Mice Relates to Hypothalamic c-Fos Expression., Physiology And Behavior, mayo de 2017; 179, 9-15
6. Teresa Morales, Recent findings on neuroprotection against excitotoxicity in the hippocampus of the female rat, Journal Of Neuroendocrinology, noviembre de 2011; 23(11), 994-1001
online
7. Cesar Huerta, Enrique Meza, Mario Daniel Caba-Flores, Teresa Morales, Raúl G. Paredes, Mario Caba., Activation of central but not the medial and cortical amygdala during anticipation for daily nursing in the rabbit., Brain Research, marzo de 2023; 1809(148341), 8
8. Cesar Huerta, Raúl G. Paredes, Teresa Morales, Mario Daniel Caba-Flores, Enrique Meza, Mario Caba., Rabbits can be conditioned in a food-induced place preference paradigm., Brain Research, julio de 2022; 1781(147815)
9. Corona R, Ordaz B, Robles-Osorio L, Sabath E and Morales T*., Neuroimmunoendocrine Link Between Chronic Kidney Disease and Olfactory Deficits., Frontiers in Integrative Neuroscience, junio de 2022; 16(16:763986)
10. Rebeca Corona, Benito Ordaz, Ludivina Robles-Osorio, Ernesto Sabath, Teresa Morales, Neuroimmunoendocrine Link between Chronic Kidney Disease (CKD) and Olfactory Deficits, Frontiers in Integrative Neuroscience, diciembre de 2021
11. Jayakumar P, Martínez-Moreno C, Lorenson M, Walker A, Morales T. , Prolactin attenuates neuroinflammation in LPS activated SIM-A9 microglial cells by inhibiting NF-κB pathways via ERK1/2., Cell and Molecular Neurobiology, junio de 2021, 16
12. Corona, R, Jayakumar P, Carbajo-Mata MA, Del Valle-Díaz MF, Luna-García LA, Morales T. , Sexually dimorphic effects of prolactin treatment on the onset of puberty and olfactory function in mice. , General And Comparative Endocrinology, febrero de 2021; (113652)
13. Anagnostou I, Muñoz-Mayorga D, Morales T*., Prolactin neuroprotective action against excitotoxic insult in the hippocampus of male mice., Peptides, enero de 2021; 135(170425), 8
14. Mendoza-Reyes J, Morales T*., Prolactin treatment reduces kainic acid-induced gliosis in the hippocampus of ovariectomized female rats., Brain Research, noviembre de 2020; 1746(147014)
15. Muñoz-Mayorga D, Rissman R, Morales T*. , Reproductive status impact on tau phosphorylation induced by chronic stress., Neurobiology of Stress, noviembre de 2020; 13(100241)
16. Diniz, Giovanne; Battagello, Daniella; Cherubini, Pedro; Reyes-Mendoza, Julio Daniel; Luna, Cesar; Klein, Marianne; Motta-Teixeira, Livia; Sita, Luciane; Miranda-Anaya, Manuel; Morales, Teresa; Bittencourt, Jackson. , Melanin-concentrating hormone peptidergic system: comparative morphology between muroid species., Journal For Comparative Neurology, diciembre de 2019; 527, 2973-3001
17. Anagnostou I, Morales T*. , Fatherhood diminishes hippocampal damaging action of excitotoxic lesioning in mice., Journal Of Neuroendocrinology, noviembre de 2019; 31(10), 1-12
18. Robles-Osorio L, Corona R, Morales T, Sabath E., Enfermedad Renal Crónica y Olfato. , Nefrología, noviembre de 2019
19. Solís C, Morales T*. , Lactation diminishes lesion-induced permeability of tracers into the brain, Brain Research Bulletin, noviembre de 2019; 144, 92-100
20. Varman-Durairaj R, Macedo-Mendoza M, Labrada-Moncada FE, Morales T, Martínez-Torres A, Reyes-Haro D., Anorexia increases microglia density and cytokine expression in the hippocampus of young female rats., Behavioural Brain Research, mayo de 2019; 363, 118-125
21. Muñoz-Mayorga D, Guerra-Araiza C, Torner L, Morales T*., Tau phosphorylation in the hippocampus of females: role of estrogens, progesterone and prolactin., Frontiers in Endocrinology, marzo de 2018
22. Daniel Reyes-Haro, Francisco Emmanuel Labrada-Moncada, Janina Krüger, Teresa Morales, Ricardo Miledi and Ataúlfo Martínez-Torres., Anorexia reduces GFAP+ cell density in the rat hippocampus. , Neural Plasticity, septiembre de 2016; ID 2426413, 11
23. Reyes-Mendoza J, Morales T, Post-treatment with prolactin protects hippocampal CA1 neurons of the female rat against kainic acid-induced neurodegeneration., Neuroscience, mayo de 2016; 328, 58-68
24. E. Vergara-Castañeda, D.R.Grattan, H.Pasantes-Morales, M. Pérez-Domínguez, E.A. Cabrera-Reyes, T. Morales, M. Cerbón, Prolactin mediates neuroprotection against excitotoxicity in primary cell cultures of hippocampal neurons via its receptor, Brain Research, febrero de 2016; 1636, 193-199
25. Lorea-Hernández J.J., Morales T., Rivera-Angulo A.J., Alcántara-González D., Peña-Ortega F., Microglia modulates respiratory rhythm generation and autoresuscitation, Glia, enero de 2016; 64(4), 603-619
26. Steinmetz D, Ramos E, Campbell SN, Morales T, Rissman RA., Role of reproductive stage and modulation of stress-induced tau phosphorylation response in female rats. , Journal Of Neuroendocrinology, noviembre de 2015; 27, 827-834
online
27. Monasterio N, Vergara E, Morales T. , Hormonal influences on neuroimmune responses in the CNS of females. , Frontiers in Integrative Neuroscience, enero de 2014; 7, 110
28. Morales T, Lorenson M, Walker AM, Ramos E., Both prolactin (PRL) and a molecular mimic of phosphorylated PRL, S179D-PRL, protect the hippocampus of female rats against excitotoxicity., Neuroscience, enero de 2014; 258, 211-217
29. Mena F, González-Hernández A, Navarro N, Castilla A, Morales T, Rojas-Piloni G, Martínez-Lorenzana G, Condés-Lara M., Prolactin fractions from lactating rats elicit effects upon sensory spinal cord cells of male rats., Neuroscience, junio de 2013; 248C, 552-561
30. Verónica Cabrera, Eugenia Ramos, Aliesha González-Arenas, Marco Cerbón, Ignacio Camacho, Teresa Morales, Lactation reduces glial activation induced by excitotoxicity in the rat hippocampus, Journal Of Neuroendocrinology, enero de 2013; 25(6), 519-527
31. Teresa Morales*. Marco Cerbón, Trophic actions of prolactin in the CNS, Advances in Neuroimmune Biology, abril de 2012; 3(1), 49-55
32. Monasterio, N, and Morales, T*, Nitric oxide has a role in attenuating the neuroendocrine response to anaphylactoid stress during lactation, Brain Research, noviembre de 2011; 1402, 54-66
33. Morales T, Hippocampus neuroprotection during lactation: a model to study neuroendocrine-immune interactions, Journal Of Neuroendocrinology, noviembre de 2010; 3, 170-174
34. Tejadilla, D., Cerbón, M., Morales, T., Prolactin prevents cell damage induced by excitotoxicity in the dorsal hippocampus of the female rat independently of ovarian hormones., Neuroscience, noviembre de 2010; 169, 1178-1185
35. Mena F, Navarro N, Castilla A, Morales T, Fiordelisio T, Cárabez A, Aguilar MA, and Huerta-Ocampo I, Prolactin released in vitro from the pituitary of lactating, pregnant, and steroid-treated female or male rats stimulates prolactin secretion from pituitary lactotrophs of male rats., Neuroendocrinology, enero de 2010; 91(1), 77-93
36. Cabrera V, Cantú D, Ramos E, Vanoye-Carlo A, Cerbón M, and Morales T, Lactation is a natural model of hippocampus neuroprotection against excitotoxicity. , Neuroscience Letters, noviembre de 2009; 461(2), 136-139
37. Vanoye-Carlo, A., Mendoza-Rodríguez, A., Morales, T., Langley, E., and Cerbón, M, ESTROGEN RECEPTORS INCREASED EXPRESSION DURING HIPPOCAMPAL NEUROPROTECTION IN LACTATING RATS., Journal Of Steroid Biochemistry And Molecular Biology, noviembre de 2009; 116(1-2), 1-7
38. Eugenia Ramos, Alejandra Castilla, Nilda Navarro, Nela Monasterio, Flavio Mena, Teresa Morales, SUCKLING-INDUCED INCREASE IN OXYTOCIN LEVEL IN LOWER SEGMENTS OF THE SPINAL CORD OF LACTATING RATS., Brain Research, noviembre de 2008; 1236(0), 85-92
39. Monasterio, N; Ramos, E; Morales T, CHANGES IN C-FOS AND NOS EXPRESSSION IN THE PVH OF LACTATING RATS IN RESPONSE TO EXCITOTOXICITY AND STRESS., Annals Of The New York Academy Of Science, noviembre de 2008; 1148, 161-164
40. Limei Zhang,* Vito S. Hernandez, Mauricio Medina-Pizarro, Pablo Valle-Leija, Arturo Vega-Gonzalez, and Teresa Morales, MATERNAL HYPERTHYROIDISM IN RATS IMPAIRS STRESS COPING OF ADULT OFFSPRING., Neuroscience Research, enero de 2008; 86(0), 1306-13015
41. Teresa Morales*, Leticia Aguilar, Maria Eugenia Ramos, Flavio Mena, Caurnel Morgan, C-FOS EXPRESSION INDUCED BY MILK INGESTION IN THE HINDBRAIN OF NEONATAL RATS., Brain Research, enero de 2008; 1241(0), 76-83
42. Vanoye-Carlo A, Morales T*, Aguilar E, Mendoza Rodríguez A, Cerbón MA., NEUROPROTECTIVE EFFECTS OF LACTATION AGAINST KAINIC ACID TREATMENT IN THE DORSAL HIPPOCAMPUS OF THE RAT., Hormones And Behavior, enero de 2008; 53(0), 112-123
43. Huerta-Ocampo, I., Fiordelisio, T., Díaz, N., Navarro, N., Castilla, A., Cárabez-Trejo, A., Aguilar, M.B., Morales, T., Hernández-Cruz, A., Mena, F., Vesicular release of prolactin from preformed prolactin granules is stimulated by soluble factor(s) from the anterior pituitary of lactating rats., Neuroendocrinology, junio de 2007; 85(0), 1-15
44. Arrieta I., Díaz-Ibañez L.B., Morales T., Moreno N., Cruz M.E., Cerbón M.A., PROGESTERONE RECEPTOR GENE AND PROTEIN EXPRESSION IN THE ANTERIOR PREOPTIC AREA AND HYPOTHALAMUS IN DEFEMINIZED RATS., Journal Of Neurobiology, enero de 2003; 56(0), 338-346
45. Morales T., Sawchenko P.E., BRAINSTEM PROLACTIN-RELEASING PEPTIDE NEURONS ARE SENSITIVE TO STRESS AND LACTATION., Journal Of Neuroscience, enero de 2003; 121(0), 771-778
46. QUIROZ, MARTINEZ I, QUIRARTE G, MORALES T, PRADOALCALA R, MEMORY CONSOLIDATION OF ENHACED INHIBITORY AVOIDANCE LEARNING DOES NOT REQUIRE DORSAL HIPPOCAMPUS., Experimental Brain Research, enero de 2003; 221(0), 400-402
47. Marina N., Morales T., Díaz F., Mena F., SUCKLING-INDUCED ACTIVATION OF NEURAL C-FOS EXPRESSION AT LOWER THORACIC RAT SPINAL CORD SEGMENTS., Brain Research, enero de 2002; 954(0), 100-114
48. MORALES T, EL PEPTIDO LIBERADOR DE LA PROLACTINA (PRRP) LOCALIZACION ANATOMICA Y SUS IMPLICACIONES EN EL ESTRES., Archivos De Neurociencias, enero de 2002; 7(0), 38-42
49. Morales T., Shapiro E., Mena F., BETA-ADRENERGIC MECHANISMS MODULATE CENTRAL NERVOUS SYSTEM EFFECTS OF PROLACTIN ON MILK EJECTION., Physiology And Behavior, enero de 2001; 74(0), 119-126
50. Morales T., Shapiro E., Mena F., SYMPATHETIC INNERVATION OF THE MAMMARY GLANDS MODULATES SUCKLING-INDUCED REFLEX INHIBITION OF MILK EJECTION IN RATS., Physiology And Behavior, enero de 2001; 74(0), 37-43
51. Morales T., Hinima S., Sawchenko P.E., PROLACTIN-RELEASING PEPTIDE IS EXPRESSED IN AFFERENTS TO THE ENDOCRINE HYPOTHALAMUS, BUT NOT IN NEUROSECRETORY NEURONS., Journal Of Neuroendocrinology, enero de 2000; 12(0), 131-140
52. Aceves C., Rojas-H., Marina N., Morales M. T., Mena F., Mammary gland sympathetic innervation is a major component on type I deiodinase regulation, Endocrine, enero de 1999; 11(0), 115-121
53. Mena F., Aguayo D., Vigueras M., Quintanar A., Stephano A., Perera G., et al., EFFECT OF POSTERIOR PITUITARY LOBECTOMY UPON IN VIVO AND IN VITRO SECRETION OF PROLACTIN IN LACTATING RATS., Endocrine, enero de 1996; 3(0), 285-290
54. Mena F., Pacheco P., Morales M. T., CENTRAL EFFECTS OF CATECHOLAMINES UPON MAMMARY CONTRACTILITY IN RAT ARE NEURALLY MEDIATED., Journal Of Neuroendocrinology, enero de 1995; 61(0), 722-730
55. Morales M. T., Mena F., EFFECTS OF CENTRALLY ADMINISTERED PROLACTIN UPON MAMMARY CONTRACTILITY IN ANESTHETIZED LACTATING RATS., Journal Of Neuroendocrinology, enero de 1995; 62(0), 207-214
56. Mena F., Montiel J.L., Aguayo D., Morales M. T., Arámburo C., RECENT FINDINGS ON PROLACTIN TRANSFORMATION BY THE LACTATING RAT PITUITARY., Endocrine Regulations, enero de 1993; 27(0), 101-109
57. MENA F., HUMMELT G., AGUAYO D., CLAPP C., MARTINEZ DE LA ESCALERA G., MORALES M.T. , CHANGES IN MOLECULAR VARIANTS DURING IN VITRO TRANSFORMATION AND RELEASE OF PROLACTIN BY THE PITUITARY GLAND OF THE LACTATING RAT., Endocrinology, enero de 1992; 130(0), 3365-3377
58. MENA F., CLAPP C., AGUAYO D., MORALES M.T., MARTINEZ DE LA ESCALERA G., STIMULATORY AND INHIBITORY EFFECTS OF SUCKLING ON MILK SECRETION., Endocrine Regulations, enero de 1991; 25(0), 25-35
59. MENA F, CLAPP C. AGUAYO D, MORALES MT. GROSVENOR CE, MARTINEZ DE LA ESCALERA G., REGULATION OF PROLACTIN SECRETION BY DOPAMINE AND THYROTROPINRELEASING HORMONE IN LACTATING RAT ADENOHYPOPHYSESINFLUENCE OF INTRACELLULAR AGE OF THE HORMONE., Endocrinology, enero de 1989; 125(0), 1814-1820
60. MENA F., MARTINEZ DE LA ESCALERA G., CLAPP C., AGUAYO D., MORALES M.T., GROSVENOR C.E., INVESTIGATION INTO THE ROLE OF DOPAMINE AND LYSOSOMES IN THE IMPAIRMENT OF PROLACTIN TRANSFORMATION AND RELEASE IMPOSED BY LONG PERIODS OF NON-SUCKLING IN THE RAT., Acta Endocrinologica, enero de 1987; 114(0), 371-378
61. MARTINEZ DE LA ESCALERA G., CLAPP C., MORALES M.T., LORENSON M.Y., MENA F., REVERSAL BY THIOLS OF DOPAMINE-, STALK-MEDIAN EMINENCE- AND ZINC-INDUCED INHIBITION OF PROLACTIN TRANSFORMATION IN ADENOHYPOPHYSES OF LACTATING RATS., Endocrinology, enero de 1986; 118(0), 1803-1807
62. CLAPP C, MARTINEZ DE LA ESCALERA G, MORALES MT, SHYR SW, GROSVENOR CE, MENA F., RELEASE OF CATECHOLAMINES FOLLOWS SUCKLING OR ELECTRICAL STIMULATION OF MAMMARY NERVE IN LACTATING RATS., Endocrinology, enero de 1985; 117(0), 2498-2503