conditioned medium
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Author(s):  
Kanadi Sumapraja ◽  
Andon Hestiantoro ◽  
Isabella Kurnia Liem ◽  
Arief Boediono ◽  
Teuku Z Jacoeb

Background: The umbilical cord-derived mesenchymal stem cells conditioned medium (UC-MSCs-CM) produces secretomes with anti-apoptotic properties, and has the potential to prevent apoptosis of granulosa cells (GC) during controlled ovarian hyperstimulation. Objective: To observe the effect of UC-MSCs-CM on the interaction between pro- and anti-apoptotic proteins and the influence of growth differentiation factor 9 (GDF9) production in GC. Materials and Methods: UC-MSCs-CM was collected from umbilical cord stem cell culture on passage 4. GC from 23 women who underwent in vitro fertilization were cultured and exposed to UC-MSCs-CM for 24 hr. Then RNA of the GC was extracted and the mRNA expression of BCL-2 associated X (BAX), survivin and GDF9 were analysed using quantitative real-time PCR. The spent culture media of the GC were collected for measurement of insulin growth factor 1 using ELISA. Results: The expression of BAX was significantly different after UC-MSCs-CM exposure (4.09E-7 vs. 3.74E-7, p = 0.02). No significant changes occurred in survivin, BAX/survivin ratio, and GDF9 expression after UC-MSCs-CM exposure (p > 0.05). The IGF-1 level of the CM was significantly higher after the CM was used as a culture medium for GC (2.28 vs. 3.07 ± 1.72, p ≤ 0.001). A significant positive correlation was found between survivin and GDF9 (r = 0.966, p ≤ 0.001). Conclusion: IGF-1 produced by UC-MSCs-CM can work in paracrine fashion through the IGF receptor, which can inhibit BAX and maintain GDF9 production. Moreover, under the influence of UC-MSCs-CM, GC are also capable of producing IGF-1, which can impact GC through autocrine processes. Key words: Conditioned medium, BAX, Survivin, GDF9, IGF-1.


2022 ◽  
Vol 8 ◽  
Author(s):  
Ibrahim Fathi ◽  
Toshio Miki

Human amniotic epithelial cells (hAECs) derived from placental tissue have received significant attention as a promising tool in regenerative medicine. Several studies demonstrated their anti-inflammatory, anti-fibrotic, and tissue repair potentials. These effects were further shown to be retained in the conditioned medium of hAECs, suggesting their paracrine nature. The concept of utilizing the hAEC-secretome has thus evolved as a therapeutic cell-free option. In this article, we review the different components and constituents of hAEC-secretome and their influence as demonstrated through experimental studies in the current literature. Studies examining the effects of conditioned medium, exosomes, and micro-RNA (miRNA) derived from hAECs are included in this review. The challenges facing the application of this cell-free approach will also be discussed based on the current evidence.


2022 ◽  
Author(s):  
Ines Borrego ◽  
Aurelien FROBERT ◽  
Guillaume AJALBERT ◽  
Jeremy VALENTIN ◽  
Cyrielle KALTENRIEDER ◽  
...  

Interactions between macrophages, cardiac cells and the extracellular matrix are crucial for cardiac repair following myocardial infarction (MI). The paracrine effects of cell-based treatments of MI might modulate these interactions and impact cardiac repair. The immunomodulatory capacity of the therapeutic cells is therefore of interest and could be modulated by the use of biomaterials. We first showed that bone marrow cells (BMC) associated with fibrin could treat MI. Then, we interrogated the influence of fibrin, as a biologically active scaffold, on the secretome of BMC and the impact of their association on macrophage fate and cardiomyoblast proliferation. Methods: In vivo, two weeks post-MI, rats were treated with epicardial implantation of BMC and fibrin or sham-operated. High-resolution echocardiography was performed to evaluate the heart function and structure changes after 4 weeeks. Histology and immunostaining were performed on harvested hearts. In vitro, BMC were first primed with fibrin. Second, non-polarized macrophages were differentiated toward either pro-inflammatory or anti-inflammatory phenotypes and stimulated with the conditioned medium of fibrin-primed BMC (F-BMC). Proteomic, cytokine levels quantification, and RT-PCR were performed. EdU incorporation and real-time cell analysis assessed cell proliferation. Results: The epicardial implantation of fibrin and BMC reduced the loss of cardiac function induced by MI, increased wall thickness and prevented the fibrotic scar expansion. After 4 and 12 weeks, the infarct content of CD68+ and CD206+ was similar in control and treated animals. In vitro, we showed that fibrin profoundly influenced the gene expression and the secretome of BMC, simultaneously upregulating both pro- and anti-inflammatory mediators. Furthermore, the conditioned medium from F-BMC significantly increased the proliferation of macrophages in a subsets dependent manner and modulated their gene expression and cytokines secretion. For instance, F-BMC significantly downregulated the expression of Nos2, Il6 and Ccl2/Mcp1 while Arg1, Tgfb and IL10 were upregulated. Interestingly, macrophages educated by F-BMC increased cardiomyoblast proliferation. In conclusion, our study provides evidence that BMC/fibrin-based treatment lowered the infarct extent and improved cardiac function. The macrophage content was unmodified when measured at a chronic stage. Nevertheless, acutely and in vitro, the F-BMC secretome promotes an anti-inflammatory response that stimulates cardiac cell growth. Finally, our study emphases the acute impact of F-BMC educated macrophages on cardiac cell fate.


2022 ◽  
Author(s):  
Reilly L Allison ◽  
Jacob W Adelman ◽  
Jenica Abrudan ◽  
Raul A Urrutia ◽  
Michael T Zimmermann ◽  
...  

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease in which upper and lower motor neuron loss is the primary phenotype, leading to muscle weakness and wasting, respiratory failure, and death. Although a portion of ALS cases are linked to one of over 50 unique genes, the vast majority of cases are sporadic in nature. However, the mechanisms underlying the motor neuron loss in either familial or sporadic ALS are not entirely clear. Here we used induced pluripotent stem cells derived from a set of identical twin brothers discordant for ALS to assess the role of astrocytes and microglia on the expression and accumulation of neurofilament proteins in motor neurons. We found that motor neurons derived from the affected twin exhibited increased transcript levels of all three neurofilament isoforms and increased expression of phosphorylated neurofilament puncta. We further found that treatment of the motor neurons with astrocyte conditioned medium and microglial conditioned medium significantly impacted neurofilament deposition. Together, these data suggest that glial-secreted factors can alter neurofilament pathology in ALS iPSC-derived motor neurons.


BIOCELL ◽  
2022 ◽  
Vol 46 (2) ◽  
pp. 471-478
Author(s):  
XINWEI WU ◽  
GUOYONG JIA ◽  
HONGNA YANG ◽  
CONGCONG SUN ◽  
YING LIU ◽  
...  

BIOCELL ◽  
2022 ◽  
Vol 46 (2) ◽  
pp. 471-478
Author(s):  
XINWEI WU ◽  
GUOYONG JIA ◽  
HONGNA YANG ◽  
CONGCONG SUN ◽  
YING LIU ◽  
...  

2021 ◽  
Author(s):  
Yunyuan Li ◽  
Ruhangiz T. Kilani ◽  
Rana Alamdaran ◽  
Arveen Shokravi ◽  
Aziz Ghahary

Abstract Alopecia areata (AA) is a T cell-mediated autoimmune skin disease with clinical features of hair loss and skin inflammation. It is unclear whether other immune cells except T lymphocytes are also involved in the development of AA. Here, our results reveal that dermal injection of either CD11b+ myeloid cells isolated from AA-affected skin or non-AA splenocyte-derived CD11b+ cells treated with macrophage colony-stimulating factor (M-CSF) induces AA in C3H/HeJ mice. The functional similarity of these cells in induction of AA seems to be due to a higher expression of M-CSF in AA affected skin. To explore the mechanism by which dermal injection of CD11b+ cells induce AA, we co-culture either AA derived skin cells or M-CSF-stimulated CD11b+ cells with naïve splenocytes. The results of splenocyte proliferation assay and immunoglobulin release in conditioned medium show a significant increase of splenocyte proliferation and IgG level in conditioned medium under both conditions as compared to controls. Most activated splenocytes induced by M-CSF-stimulated myeloid cells are B lymphocytes. B cell activation are further confirmed in AA-affected skin and skin draining lymph nodes of AA mice. In conclusion, in this study, we have provided evidence that M-CSF stimulated CD11b+ cells are able to induce AA in C3H/HeJ mice through a possible mechanism by activating B lymphocytes. This finding may provide insight for understanding the pathogenesis of AA.


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