Symbiosis with Dinoflagellates Alters Cnidarian Cell-Cycle Gene Expression

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-05-23 DOI:10.1155/2022/3330160
Lucy M. Gorman, Migle K. Konciute, Guoxin Cui, Clinton A. Oakley, A. Grossman, V. Weis, M. Aranda, S. Davy
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引用次数: 2

Abstract

In the cnidarian-dinoflagellate symbiosis, hosts show altered expression of genes involved in growth and proliferation when in the symbiotic state, but little is known about the molecular mechanisms that underlie the host’s altered growth rate. Using tissue-specific transcriptomics, we determined how symbiosis affects expression of cell cycle-associated genes, in the model symbiotic cnidarian Exaiptasia diaphana (Aiptasia). The presence of symbionts within the gastrodermis elicited cell-cycle arrest in the G1 phase in a larger proportion of host cells compared with the aposymbiotic gastrodermis. The symbiotic gastrodermis also showed a reduction in the amount of cells synthesizing their DNA and progressing through mitosis when compared with the aposymbiotic gastrodermis. Host apoptotic inhibitors (Mdm2) were elevated, while host apoptotic sensitizers (c-Myc) were depressed, in the symbiotic gastrodermis when compared with the aposymbiotic gastrodermis and epidermis of symbiotic anemones, respectively. This indicates that the presence of symbionts negatively regulates host apoptosis, possibly contributing to their persistence within the host. Transcripts (ATM/ATR) associated with DNA damage were also downregulated in symbiotic gastrodermal tissues. In epidermal cells, a single gene (Mob1) required for mitotic completion was upregulated in symbiotic compared with aposymbiotic anemones, suggesting that the presence of symbionts in the gastrodermis stimulates host cell division in the epidermis. To further corroborate this hypothesis, we performed microscopic analysis using an S-phase indicator (EdU), allowing us to evaluate cell cycling in host cells. Our results confirmed that there were significantly more proliferating host cells in both the gastrodermis and epidermis in the symbiotic state compared with the aposymbiotic state. Furthermore, when comparing between tissue layers in the presence of symbionts, the epidermis had significantly more proliferating host cells than the symbiont-containing gastrodermis. These results contribute to our understanding of the influence of symbionts on the mechanisms of cnidarian cell proliferation and mechanisms associated with symbiont maintenance.
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与鞭毛藻共生改变刺胞细胞周期基因表达
在刺胞-鞭毛藻共生中,宿主在共生状态下表现出与生长和增殖有关的基因表达的改变,但对宿主生长速率改变的分子机制知之甚少。利用组织特异性转录组学,我们确定了共生刺丝虫(Aiptasia diaphana)模型中共生如何影响细胞周期相关基因的表达。与非共生的胃真皮层相比,在胃真皮层中存在共生体会导致更大比例的宿主细胞在G1期细胞周期停滞。与非共生胃真皮层相比,共生胃真皮层中合成DNA和有丝分裂的细胞数量也有所减少。与共生海葵的非共生胃皮和表皮相比,共生胃皮中宿主凋亡抑制剂(Mdm2)升高,而宿主凋亡致敏剂(c-Myc)降低。这表明共生体的存在负调控宿主细胞凋亡,可能有助于它们在宿主体内的持久性。与DNA损伤相关的转录本(ATM/ATR)在共生胃真皮组织中也下调。在表皮细胞中,与非共生海葵相比,共生海葵中有丝分裂完成所需的单个基因(Mob1)表达上调,这表明腹真皮中共生体的存在刺激了表皮中宿主细胞的分裂。为了进一步证实这一假设,我们使用s期指示剂(EdU)进行了显微镜分析,使我们能够评估宿主细胞中的细胞周期。我们的研究结果证实,在共生状态下,胃真皮和表皮的增殖细胞明显多于非共生状态下的宿主细胞。此外,当比较存在共生体的组织层时,表皮比含有共生体的胃真皮具有更多的增殖宿主细胞。这些结果有助于我们了解共生体对刺胞细胞增殖的影响机制和共生体维持的相关机制。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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