Comparative Oncology: New Insights into an Ancient Disease

Boddy, Amy M.; Harrison, Tara M.; Abegglen, Lisa M.

doi:10.1016/j.isci.2020.101373

Cited by 25 publications

(32 citation statements)

References 109 publications

(150 reference statements)

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“…Accordingly, we should expect a higher probability of developing cancer in larger and longer-lived organisms than smaller ones, although this does not occur [6][7][8][9][10] . Several hypotheses have been proposed to explain the different evolutionary strategies that have arisen to fight cancer [11] , including specific adaptations to the environment, fitness, DNA damage responses, tissue microenvironments, and cellular senescence [12,13] . Recently, the availability of the genomes of a wide variety of species has prompted the search for genes that could explain the differences arising in cancer incidence between species [14] .…”

Section: Introductionmentioning

confidence: 99%

Positive selection and gene duplications in tumour suppressor genes reveal clues about how cetaceans resist cancer

Tejada‐Martinez

Magalhães

Opazo

2020

Preprint

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Cetaceans are the longest-lived species of mammals and the largest in the history of the planet. They have developed mechanisms against diseases like cancer, however their underlying molecular and genetic basis remain unknown. The goal of this study was to investigate the role of natural selection in the evolution of tumor suppressor genes in cetaceans. We found signal of positive selection 29 tumor suppressor genes and duplications in 197 genes. The turnover rate of tumor suppressor genes was almost 6 times faster in cetaceans when compared to other mammals. Those genes with duplications and with positive selection are involved in important cancer regulation mechanisms (e.g. chromosome break, DNA repair and biosynthesis of fatty acids). They are also related with multiple ageing and neurological disorders in humans (e.g. Alzheimer, Nijmegen breakage syndrome, and schizophrenia). These results provide evolutionary evidence that natural selection in tumor suppressor genes could act on species with large body sizes and extended life span, providing insights into the genetic basis of disease resistance. We propose that the cetaceans are an important model in cancer, ageing and neuronal, motor and behavior disorders.

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Section: Introductionmentioning

confidence: 99%

Positive selection and gene duplications in tumour suppressor genes reveal clues about how cetaceans resist cancer

Tejada‐Martinez

Magalhães

Opazo

2020

Preprint

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“…There are a number of converging associations between prokaryotic microorganisms, particularly bacteria, and the incidence of cancer in the animal kingdom, including humans [69,70]. Similar to the case of infectious diseases, written records from different cultures [71][72][73][74] and paleo-oncology/pathology data [75][76][77][78] clearly show that cancer is indeed an ancient disease ( Table 2).…”

Section: Bacteria and Cancermentioning

confidence: 96%

A Significant Question in Cancer Risk and Therapy: Are Antibiotics Positive or Negative Effectors? Current Answers and Possible Alternatives

Amadei

Notario

2020

Antibiotics

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Cancer is predominantly considered as an environmental disease caused by genetic or epigenetic alterations induced by exposure to extrinsic (e.g., carcinogens, pollutants, radiation) or intrinsic (e.g., metabolic, immune or genetic deficiencies). Over-exposure to antibiotics, which is favored by unregulated access as well as inappropriate prescriptions by physicians, is known to have led to serious health problems such as the rise of antibiotic resistance, in particular in poorly developed countries. In this review, the attention is focused on evaluating the effects of antibiotic exposure on cancer risk and on the outcome of cancer therapeutic protocols, either directly acting as extrinsic promoters, or indirectly, through interactions with the human gut microbiota. The preponderant evidence derived from information reported over the last 10 years confirms that antibiotic exposure tends to increase cancer risk and, unfortunately, that it reduces the efficacy of various forms of cancer therapy (e.g., chemo-, radio-, and immunotherapy alone or in combination). Alternatives to the current patterns of antibiotic use, such as introducing new antibiotics, bacteriophages or enzybiotics, and implementing dysbiosis-reducing microbiota modulatory strategies in oncology, are discussed. The information is in the end considered from the perspective of the most recent findings on the tumor-specific and intracellular location of the tumor microbiota, and of the most recent theories proposed to explain cancer etiology on the notion of regression of the eukaryotic cells and systems to stages characterized for a lack of coordination among their components of prokaryotic origin, which is promoted by injuries caused by environmental insults.

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“…This is mainly due to multiple functions attributed to GOLPH3 (Sechi et al, 2015), including, the sorting of Golgi glycosyltransferases (Ali et al, 2012; Isaji et al, 2014; Pereira et al, 2014), the modulation of focal adhesion dynamics (Arriagada et al, 2019), induction of membrane curvature (Rahajeng et al, 2019), and an intriguing function for a Golgi protein, regulating mitochondrial function (Nakashima-Kamimura et al, 2005). Because cancer has deep evolutionary roots that arise as a consequence of the multicellularity (Boddy et al, 2020), and is widespread across animals (Albuquerque et al, 2018), studying the evolution of the GOLPH3 gene family in non-model species can provide significant information for a comparative oncology approach, which is emerging as an integrative field to tackle cancer (Boddy et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

“…Today, the GOLPH3 gene family is viewed as a group of genes containing two paralogs (GOLPH3 and GOLPH3L) with 1:1 orthologs among most vertebrate species (Wu et al, 2000; Bell et al, 2001). Among amniotes, it is suggested that birds are less susceptible to cancer in contrast to mammals (Ratcliffe, 1933; Lombard and Witte, 1959; Effron et al, 1977; Pang et al, 2012; Møller et al, 2017; Boddy et al, 2020); although this information should be taken with caution given sampling bias (Hochberg and Noble, 2017). Thus, the study of genes associated with cancer in birds could provide clues about the genetic bases associated with this difference and suggest additional model systems that could help to understand the biology of the GOLPH3 gene family.…”

Section: Introductionmentioning

confidence: 99%

Independent duplications of the Golgi phosphoprotein 3 oncogene in birds

Opazo

Vandewege

Gutiérrez

et al. 2021

Preprint

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Golgi phosphoprotein 3 (GOLPH3) is considered the first oncoprotein of the Golgi apparatus. It was identified as an evolutionarily conserved protein upon its discovery about 20 years ago, but its function remains puzzling in normal and cancer cells. The GOLPH3 gene is part of a group of genes that also includes the GOLPH3L gene. Because cancer has deep roots in multicellular evolution, studying the evolution of the GOLPH3 gene family in non-model species represents an opportunity to identify new model systems that could help better understand the biology behind this group of genes. The main goal of this study is to explore the evolution of the GOLPH3 gene family in birds as a starting point to understand the evolutionary history of this oncoprotein. We identified a repertoire of three GOLPH3 genes in birds. We found duplicated copies of the GOLPH3 gene in all main groups of birds other than paleognaths, and a single copy of the GOLPH3L gene. We suggest there were at least three independent origins for GOLPH3 duplicates. Amino acid divergence estimates show that most of the variation is located in the N-terminal region of the protein. Our transcript abundance estimations show that one paralog is highly and ubiquitously expressed, and the others were variable. Our results are an example of the significance of understanding the evolution of the GOLPH3 gene family, especially for unraveling its structural and functional attributes.

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Comparative Oncology: New Insights into an Ancient Disease

Cited by 25 publications

References 109 publications

Positive selection and gene duplications in tumour suppressor genes reveal clues about how cetaceans resist cancer

Positive selection and gene duplications in tumour suppressor genes reveal clues about how cetaceans resist cancer

A Significant Question in Cancer Risk and Therapy: Are Antibiotics Positive or Negative Effectors? Current Answers and Possible Alternatives

Independent duplications of the Golgi phosphoprotein 3 oncogene in birds

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