Nicholas Genovese scite author profile

Cellular agriculture is an emerging branch of biotechnology that aims to address issues associated with the environmental impact, animal welfare and sustainability challenges of conventional animal farming for meat production. Cultured meat can be produced by applying current cell culture practices and biomanufacturing methods and utilizing mammalian cell lines and cell and gene therapy products to generate tissue or nutritional proteins for human consumption. However, significant improvements and modifications are needed for the process to be cost efficient and robust enough to be brought to production at scale for food supply. Here, we review the scientific and social challenges in transforming cultured meat into a viable commercial option, covering aspects from cell selection and medium optimization to biomaterials, tissue engineering, regulation and consumer acceptance.

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Anticipatory Life Cycle Analysis of In Vitro Biomass Cultivation for Cultured Meat Production in the United States

Mattick¹,

Landis

Allenby

et al. 2015

Environ. Sci. Technol.

290

201

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Cultured, or in vitro, meat consists of edible biomass grown from animal stem cells in a factory, or carnery. In the coming decades, in vitro biomass cultivation could enable the production of meat without the need to raise livestock. Using an anticipatory life cycle analysis framework, the study described herein examines the environmental implications of this emerging technology and compares the results with published impacts of beef, pork, poultry, and another speculative analysis of cultured biomass. While uncertainty ranges are large, the findings suggest that in vitro biomass cultivation could require smaller quantities of agricultural inputs and land than livestock; however, those benefits could come at the expense of more intensive energy use as biological functions such as digestion and nutrient circulation are replaced by industrial equivalents. From this perspective, large-scale cultivation of in vitro meat and other bioengineered products could represent a new phase of industrialization with inherently complex and challenging trade-offs.

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O-linked GlcNAcylation elevated by HPV E6 mediates viral oncogenesis

Zeng

Zhao

Chen

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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High-risk human papillomaviruses (HPVs) are causative agents of anogenital cancers and a fraction of head and neck cancers. The mechanisms involved in the progression of HPV neoplasias to cancers remain largely unknown. Here, we report that O-linked GlcNAcylation (O-GlcNAc) and O-GlcNAc transferase (OGT) were markedly increased in HPV-caused cervical neoplasms relative to normal cervix, whereas O-GlcNAcase (OGA) levels were not altered. Transduction of HPV16 oncogene E6 or E6/E7 into mouse embryonic fibroblasts (MEFs) up-regulated OGT mRNA and protein, elevated the level of O-GlcNAc, and promoted cell proliferation while reducing cellular senescence. Two HR HPV genes, E6 and E7, are potent oncogenes based on their immortalizing and transforming activities in cell culture systems and their capacities to induce tumors in animal models. The HR HPV E7 oncoprotein binds to more than 20 cellular targets and interferes with multiple cellular processes, leading to deregulated cell cycle, centrosome amplification, DNA damage, anoikis resistance, anchorage-independent cell growth and malignant transformation as well as immune surveillance evasion.

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Casein Kinase II Motif-Dependent Phosphorylation of Human Papillomavirus E7 Protein Promotes p130 Degradation and S-Phase Induction in Differentiated Human Keratinocytes

Genovese

Banerjee

Broker

et al. 2008

J Virol

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The E7 proteins of human papillomaviruses (HPVs) promote S-phase reentry in differentiated keratinocytes of the squamous epithelia to support viral DNA amplification. In this study, we showed that nuclear p130 was present in the differentiated strata of several native squamous epithelia susceptible to HPV infection. In contrast, p130 was below the level of detection in HPV-infected patient specimens. In submerged and organotypic cultures of primary human keratinocytes, the E7 proteins of the high-risk mucosotrophic HPV-18, the benign cutaneous HPV-1, and, to a lesser extent, the low-risk mucosotropic HPV-11 destabilized p130. This E7 activity depends on an intact pocket protein binding domain and a casein kinase II (CKII) phosphorylation motif. Coimmunoprecipitation experiments showed that both E7 domains were important for binding to p130 in extracts of organotypic cultures. Metabolic labeling in vivo demonstrated that E7 proteins were indeed phosphorylated in a CKII motif-dependent manner. Moreover, the efficiencies of the E7 proteins of various HPV types or mutations to induce S-phase reentry in spinous cells correlated with their relative abilities to bind and to destabilize p130. Collectively, these data support the notion that p130 controls the homeostasis of the differentiated keratinocytes and is therefore targeted by E7 for degradation to establish conditions permissive for viral DNA amplification.Human papillomaviruses (HPVs) are ubiquitous, medically important pathogens. Infections can cause hyperproliferative lesions in mucosal or cutaneous epithelia. HPV types are grouped on the basis of their sequence homologies. Closely related types have similar tissue tropism and pathogenicity. The mucosotropic HPVs are further categorized as low-risk (LR) or high-risk (HR) genotypes according to their oncogenic potentials. The LR HPV-6 and HPV-11 are the most common types that induce exophytic, benign anogenital warts and laryngeal papillomas but seldom cause cancers. In contrast, a small fraction of the infections by HR HPV-16, HPV-18, and closely related types can progress to high-grade dysplasias and cancers (for reviews, see references 21 and 68). A direct causal correlation has been established between virtually all cervical cancers and HR HPV infections (64).The molecular basis for the diverse pathological outcomes lies in the virus-host interactions necessary to support productive infections. In normal squamous epithelium, ability to proliferate is restricted to the basal and parabasal cells, whereas all other suprabasal cells have withdrawn from the cell cycle and undergo successive stages of differentiation (38). Papillomavirus gains entry into the cycling cells through wounds and can establish persistent infection, where the double-stranded, circular viral DNA genome is maintained as low-copy extrachromosomal nuclear plasmids. Productive viral DNA amplification takes place only in the differentiated strata (60; for a review, see reference 14). Since viral DNA replication requires host DNA replication ...

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LKB1 inhibits HPV-associated cancer progression by targeting cellular metabolism

Zeng

Chen

et al. 2016

Oncogene

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Liver kinase B1 (LKB1) is mutationally inactivated in Peutz-Jeghers syndrome and in a variety of cancers including human papillomavirus (HPV)-caused cervical cancer. However, the significance of LKB1 mutations in cervical cancer initiation and progress has not been examined. Herein, we demonstrated that, in mouse embryonic fibroblasts, loss of LKB1 and transduction of HPV16 E6/E7 had an additive effect on constraining cell senescence while promoting cell proliferation and increasing glucose consumption, lactate production, and ATP generation. Knock-down of LKB1 increased and ectopic expression of LKB1 decreased glycolysis, anchorage-independent cell growth, and cell migration and invasion in HPV transformed cells. In the tumorigenesis and lung metastasis model in syngeneic mice, depletion of LKB1 markedly increased tumor metastatic colonies in lungs without affecting subcutaneous tumor growth. We showed that HPV16 E6/E7 enhanced the expression of hexokinase-ll (HK-II) in the glycolytic pathway through elevated c-MYC. Ectopic LKB1 reduced HK-II along with glycolysis. The inverse relationship between HK-II and LKB1 was also observed in normal and HPV-associated cervical lesions. We propose that LKB1 acts as a safeguard against HPV-stimulated aerobic glycolysis and tumor progression. These findings may eventually aid in the development of therapeutic strategy for HPV-associated malignancies by targeting cell metabolism.

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