The aminoestrogen prolame increases recognition memory and hippocampal neuronal spine density in aged mice
The aging brain shows biochemical and morphological changes in the dendrites of pyramidal neurons from the limbic system associated with memory loss. Prolame (N‐(3‐hydroxy‐1,3,5 (10)‐estratrien‐17β‐yl)‐3‐hydroxypropylamine) is a non‐feminizing aminoestrogen with antithrombotic activity that prevents...
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| Published in: | Synapse (New York, N.Y.) Vol. 71; no. 10; pp. e21987 - n/a |
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| Abstract | The aging brain shows biochemical and morphological changes in the dendrites of pyramidal neurons from the limbic system associated with memory loss. Prolame (N‐(3‐hydroxy‐1,3,5 (10)‐estratrien‐17β‐yl)‐3‐hydroxypropylamine) is a non‐feminizing aminoestrogen with antithrombotic activity that prevents neuronal deterioration, oxidative stress, and neuroinflammation. Our aim was to evaluate the effect of prolame on motor and cognitive processes, as well as its influence on the dendritic morphology of neurons at the CA1, CA3, and granule cells of the dentate gyrus (DG) regions of hippocampus (HP), and medium spiny neurons of the nucleus accumbens (NAcc) of aged mice. Dendritic morphology was assessed with the Golgi‐Cox stain procedure followed by Sholl analysis. Prolame (60 µg/kg) was subcutaneously injected daily for 60 days in 18‐month‐old mice. Immediately after treatment, locomotor activity in a new environment and recognition memory using the Novel Object Recognition Task (NORT) were evaluated. Prolame‐treated mice showed a significant increase in the long‐term exploration quotient, but locomotor activity was not modified in comparison to control animals. Prolame‐treated mice showed a significant increase in dendritic spines density and dendritic length in neurons of the CA1, CA3, and DG regions of the HP, whereas dendrites of neurons in the NAcc remained unmodified. In conclusion, prolame administration promotes hippocampal plasticity processes but not in the NAcc neurons of aged mice, thus improving long‐term recognition memory. Prolame could become a pharmacological alternative to prevent or delay the brain aging process, and thus the emergence of neurodegenerative diseases that affect memory.
The treatment with prolame improves the recognition memory and dendritic morphology of the hippocampus in aging mice, providing more evidence to be considered as a tool to delay the aging of the brain. |
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| AbstractList | The aging brain shows biochemical and morphological changes in the dendrites of pyramidal neurons from the limbic system associated with memory loss. Prolame (N-(3-hydroxy-1,3,5 (10)-estratrien-17β-yl)-3-hydroxypropylamine) is a non-feminizing aminoestrogen with antithrombotic activity that prevents neuronal deterioration, oxidative stress, and neuroinflammation. Our aim was to evaluate the effect of prolame on motor and cognitive processes, as well as its influence on the dendritic morphology of neurons at the CA1, CA3, and granule cells of the dentate gyrus (DG) regions of hippocampus (HP), and medium spiny neurons of the nucleus accumbens (NAcc) of aged mice. Dendritic morphology was assessed with the Golgi-Cox stain procedure followed by Sholl analysis. Prolame (60 µg/kg) was subcutaneously injected daily for 60 days in 18-month-old mice. Immediately after treatment, locomotor activity in a new environment and recognition memory using the Novel Object Recognition Task (NORT) were evaluated. Prolame-treated mice showed a significant increase in the long-term exploration quotient, but locomotor activity was not modified in comparison to control animals. Prolame-treated mice showed a significant increase in dendritic spines density and dendritic length in neurons of the CA1, CA3, and DG regions of the HP, whereas dendrites of neurons in the NAcc remained unmodified. In conclusion, prolame administration promotes hippocampal plasticity processes but not in the NAcc neurons of aged mice, thus improving long-term recognition memory. Prolame could become a pharmacological alternative to prevent or delay the brain aging process, and thus the emergence of neurodegenerative diseases that affect memory. The aging brain shows biochemical and morphological changes in the dendrites of pyramidal neurons from the limbic system associated with memory loss. Prolame (N-(3-hydroxy-1,3,5 (10)-estratrien-17[beta]-yl)-3-hydroxypropylamine) is a non-feminizing aminoestrogen with antithrombotic activity that prevents neuronal deterioration, oxidative stress, and neuroinflammation. Our aim was to evaluate the effect of prolame on motor and cognitive processes, as well as its influence on the dendritic morphology of neurons at the CA1, CA3, and granule cells of the dentate gyrus (DG) regions of hippocampus (HP), and medium spiny neurons of the nucleus accumbens (NAcc) of aged mice. Dendritic morphology was assessed with the Golgi-Cox stain procedure followed by Sholl analysis. Prolame (60 µg/kg) was subcutaneously injected daily for 60 days in 18-month-old mice. Immediately after treatment, locomotor activity in a new environment and recognition memory using the Novel Object Recognition Task (NORT) were evaluated. Prolame-treated mice showed a significant increase in the long-term exploration quotient, but locomotor activity was not modified in comparison to control animals. Prolame-treated mice showed a significant increase in dendritic spines density and dendritic length in neurons of the CA1, CA3, and DG regions of the HP, whereas dendrites of neurons in the NAcc remained unmodified. In conclusion, prolame administration promotes hippocampal plasticity processes but not in the NAcc neurons of aged mice, thus improving long-term recognition memory. Prolame could become a pharmacological alternative to prevent or delay the brain aging process, and thus the emergence of neurodegenerative diseases that affect memory. The aging brain shows biochemical and morphological changes in the dendrites of pyramidal neurons from the limbic system associated with memory loss. Prolame (N‐(3‐hydroxy‐1,3,5 (10)‐estratrien‐17β‐yl)‐3‐hydroxypropylamine) is a non‐feminizing aminoestrogen with antithrombotic activity that prevents neuronal deterioration, oxidative stress, and neuroinflammation. Our aim was to evaluate the effect of prolame on motor and cognitive processes, as well as its influence on the dendritic morphology of neurons at the CA1, CA3, and granule cells of the dentate gyrus (DG) regions of hippocampus (HP), and medium spiny neurons of the nucleus accumbens (NAcc) of aged mice. Dendritic morphology was assessed with the Golgi‐Cox stain procedure followed by Sholl analysis. Prolame (60 µg/kg) was subcutaneously injected daily for 60 days in 18‐month‐old mice. Immediately after treatment, locomotor activity in a new environment and recognition memory using the Novel Object Recognition Task (NORT) were evaluated. Prolame‐treated mice showed a significant increase in the long‐term exploration quotient, but locomotor activity was not modified in comparison to control animals. Prolame‐treated mice showed a significant increase in dendritic spines density and dendritic length in neurons of the CA1, CA3, and DG regions of the HP, whereas dendrites of neurons in the NAcc remained unmodified. In conclusion, prolame administration promotes hippocampal plasticity processes but not in the NAcc neurons of aged mice, thus improving long‐term recognition memory. Prolame could become a pharmacological alternative to prevent or delay the brain aging process, and thus the emergence of neurodegenerative diseases that affect memory. The treatment with prolame improves the recognition memory and dendritic morphology of the hippocampus in aging mice, providing more evidence to be considered as a tool to delay the aging of the brain. |
| Author | Flores, Gonzalo Montaño, Luis F. Treviño, Samuel Espinosa, Blanca Fernández‐G, Juan Manuel Diaz, Alfonso Vázquez‐Roque, Rubén Venegas, Berenice Guevara, Jorge |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/28545157$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1016_j_jchemneu_2022_102166 crossref_primary_10_1002_syn_22193 crossref_primary_10_1002_syn_22082 crossref_primary_10_1016_j_jchemneu_2019_101734 crossref_primary_10_1002_brb3_1024 crossref_primary_10_3390_ijms23063349 crossref_primary_10_1016_j_steroids_2022_109030 crossref_primary_10_1007_s11064_018_02703_2 crossref_primary_10_1016_j_jchemneu_2022_102091 crossref_primary_10_1016_j_neuroscience_2018_11_006 crossref_primary_10_1002_syn_22100 crossref_primary_10_5607_en_2018_27_1_45 crossref_primary_10_1002_syn_22185 crossref_primary_10_1177_0271678X231169133 crossref_primary_10_1002_syn_22036 |
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| Keywords | dendrites estrogens plasticity novel object recognition task aging Alzheimer |
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Neuroscience |
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| Snippet | The aging brain shows biochemical and morphological changes in the dendrites of pyramidal neurons from the limbic system associated with memory loss. Prolame... |
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| SubjectTerms | aging Alzheimer Cognitive ability dendrites Dendritic spines Dentate gyrus estrogens Exploration Granule cells Hippocampal plasticity Hippocampus Inflammation Limbic system Locomotor activity Memory Morphology Motor task performance Neurodegenerative diseases novel object recognition task Nucleus accumbens Oxidative stress Pattern recognition plasticity Pyramidal cells Rodents Spiny neurons |
| Title | The aminoestrogen prolame increases recognition memory and hippocampal neuronal spine density in aged mice |
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