Your search keyword '"Chandragiri Siva Sai"' showing total 3 results

1. Young blood-mediated cerebromicrovascular rejuvenation through heterochronic parabiosis: enhancing blood-brain barrier integrity and capillarization in the aged mouse brain

Author

Gulej, Rafal, Nyúl-Tóth, Ádám, Csik, Boglarka, Patai, Roland, Petersen, Benjamin, Negri, Sharon, Chandragiri, Siva Sai, Shanmugarama, Santny, Mukli, Peter, Yabluchanskiy, Andriy, Conley, Shannon, Huffman, Derek, Tarantini, Stefano, Csiszar, Anna, and Ungvari, Zoltan

Abstract

Age-related cerebromicrovascular changes, including blood-brain barrier (BBB) disruption and microvascular rarefaction, play a significant role in the development of vascular cognitive impairment (VCI) and neurodegenerative diseases. Utilizing the unique model of heterochronic parabiosis, which involves surgically joining young and old animals, we investigated the influence of systemic factors on these vascular changes. Our study employed heterochronic parabiosis to explore the effects of young and aged systemic environments on cerebromicrovascular aging in mice. We evaluated microvascular density and BBB integrity in parabiotic pairs equipped with chronic cranial windows, using intravital two-photon imaging techniques. Our results indicate that short-term exposure to young systemic factors leads to both functional and structural rejuvenation of cerebral microcirculation. Notably, we observed a marked decrease in capillary density and an increase in BBB permeability to fluorescent tracers in the cortices of aged mice undergoing isochronic parabiosis (20-month-old C57BL/6 mice [A-(A)]; 6 weeks of parabiosis), compared to young isochronic parabionts (6-month-old, [Y-(Y)]). However, aged heterochronic parabionts (A-(Y)) exposed to young blood exhibited a significant increase in cortical capillary density and restoration of BBB integrity. In contrast, young mice exposed to old blood from aged parabionts (Y-(A)) rapidly developed cerebromicrovascular aging traits, evidenced by reduced capillary density and increased BBB permeability. These findings underscore the profound impact of systemic factors in regulating cerebromicrovascular aging. The rejuvenation observed in the endothelium, following exposure to young blood, suggests the existence of anti-geronic elements that counteract microvascular aging. Conversely, pro-geronic factors in aged blood appear to accelerate cerebromicrovascular aging. Further research is needed to assess whether the rejuvenating effects of young blood factors could extend to other age-related cerebromicrovascular pathologies, such as microvascular amyloid deposition and increased microvascular fragility.

Published

2024

2. Anthocyanins - dietary natural products with a variety of bioactivities for the promotion of human and animal health

Author

Yeung, Andy Wai Kan, Solka, Magdalena, Jóźwik, Artur, Ksepka, Natalia, Matin, Maima, Wang, Dongdong, Zielińska, Aleksandra, MohanaSundaram, ArunSundar, Vejux, Anne, Zarrouk, Amira, Tewari, Devesh, Horbańczuk, Jarosław Olav, Lucarini, Massimo, Durazzo, Alessandra, Ghzaiel, Imen, Michalczuk, Monika, Rezig, Leila, Tzvetkov, Nikolay T., Matin, Farhan Bin, Lizard, Gérard, Bishayee, Anupam, Devkota, Hari Prasad, El-Demerdash, Amr, Brnčić, Mladen, Santini, Antonello, Mickael, Michel-Edwar, Horbańczuk, Olaf, Charuta, Anna, Szafrańska, Karina, Małachowska, Ewa, Wieczorek, Marek, Siddiquea, Bodrun Naher, Hrg, Dalibor, Frazzini, Sara, Rossi, Luciana, Singla, Rajeev K., Wieczorek, Anna, Łysek-Gładysinska, Małgorzata, Chandragiri, Siva Sai, Adamska, Olga, Stolarczyk, Artur, Klusek, Justyna, Szymańska-Czerwińska, Monika, Niemczuk, Krzysztof, Hejna, Monika, Sztandarski, Patryk, Jaszczyk, Aneta, Michnowska, Hanna, Tomasik, Cyprian, Zima-Kulisiewicz, Bogumila, Marchewka, Joanna, Ławiński, Michał, and Atanasov, Atanas G.

Abstract

Anthocyanins are water-soluble pigments contained in numerous food plants. This study provides an overall quantitative literature analysis on anthocyanins. Bibliometric data were collected through the search string TOPIC = anthocyan*, which yielded 44,121 publications indexed within the Web of Science Core Collection. Term maps were generated using VOSviewer software to visualize frequently mentioned terms alongside their citation data. The literature has been growing fast since the 2000s and predominantly consists of original articles, with a ratio of 13.8:1 compared to reviews. The most productive author was Professor Victor de Freitas from the University of Porto, whereas the most productive countries were China and the United States. Many publications were published in food science & technology and plant sciences journals. Frequently mentioned chemicals/chemical classes included anthocyanin, flavonoid, cyanidin, phenolic compound, and polyphenol. Recurring food items of the anthocyanin papers were grapes, many berries, and specific varieties of rice, maize, potato, and tomato.

Published

2024

3. Rejuvenation of cerebromicrovascular function in aged mice through heterochronic parabiosis: insights into neurovascular coupling and the impact of young blood factors

Author

Gulej, Rafal, Nyúl-Tóth, Ádám, Csik, Boglarka, Petersen, Benjamin, Faakye, Janet, Negri, Sharon, Chandragiri, Siva Sai, Mukli, Peter, Yabluchanskiy, Andriy, Conley, Shannon, Huffman, Derek M., Csiszar, Anna, Tarantini, Stefano, and Ungvari, Zoltan

Abstract

Age-related impairment of neurovascular coupling (NVC; “functional hyperemia”) is a critical factor in the development of vascular cognitive impairment (VCI). Recent geroscience research indicates that cell-autonomous mechanisms alone cannot explain all aspects of neurovascular aging. Circulating factors derived from other organs, including pro-geronic factors (increased with age and detrimental to vascular homeostasis) and anti-geronic factors (preventing cellular aging phenotypes and declining with age), are thought to orchestrate cellular aging processes. This study aimed to investigate the influence of age-related changes in circulating factors on neurovascular aging. Heterochronic parabiosis was utilized to assess how exposure to young or old systemic environments could modulate neurovascular aging. Results demonstrated a significant decline in NVC responses in aged mice subjected to isochronic parabiosis (20-month-old C57BL/6 mice [A-(A)]; 6 weeks of parabiosis) when compared to young isochronic parabionts (6-month-old, [Y-(Y)]). However, exposure to young blood from parabionts significantly improved NVC in aged heterochronic parabionts [A-(Y)]. Conversely, young mice exposed to old blood from aged parabionts exhibited impaired NVC responses [Y-(A)]. In conclusion, even a brief exposure to a youthful humoral environment can mitigate neurovascular aging phenotypes, rejuvenating NVC responses. Conversely, short-term exposure to an aged humoral milieu in young mice accelerates the acquisition of neurovascular aging traits. These findings highlight the plasticity of neurovascular aging and suggest the presence of circulating anti-geronic factors capable of rejuvenating the aging cerebral microcirculation. Further research is needed to explore whether young blood factors can extend their rejuvenating effects to address other age-related cerebromicrovascular pathologies, such as blood–brain barrier integrity.

Published

2023