Therapeutic applications of CRISPR-Cas9 in diabetes mellitus: a perspective review

Diabetes mellitus (DM) is an excessively widespread condition resulting as a consequence of either autoimmune-mediated dysfunction of the pancreatic β-cells and abolishment of insulin production (Type I DM; T1DM), or deficient insulin production and irresponsiveness of cells to it (type II DM; T2DM)...

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Published in	Minerva Biotechnology and Biomolecular Research Vol. 35; no. 4; p. 238
Main Authors	BORA, Jutishna, MALIK, Sumira, KISHORE, Shristi, RUSTAGI, Sarvesh, AHMAD, Faraz, FAGOONEE, Sharmila, PELLICANO, Rinaldo, HAQUE, Shafiul
Format	Journal Article
Language	English
Published	Torino Edizioni Minerva Medica 01.12.2023
Subjects	Animal models Beta cells Blood levels Cell differentiation CRISPR Diabetes Diabetes mellitus Genomes Homeobox Hyperglycemia Insulin Nuclease Pancreas Pluripotency Reviews Therapeutic applications
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ISSN	2724-542X 1120-4826 2724-5934 1827-160X
DOI	10.23736/S2724-542X.23.02996-6

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Abstract	Diabetes mellitus (DM) is an excessively widespread condition resulting as a consequence of either autoimmune-mediated dysfunction of the pancreatic β-cells and abolishment of insulin production (Type I DM; T1DM), or deficient insulin production and irresponsiveness of cells to it (type II DM; T2DM). Either ways, the result is elevated blood glucose levels or hyperglycemia, the characteristic feature of DM. Tremendous efforts and resources have been spent in deciphering effective therapies/treatments against DM. In spite of hard-earned successes, the problems associated with DM still persist, warranting the need for exploration, development and application of novel dimensions in our quest for controlling this serious problem. Recent years have seen the emergence of promising genetic manipulation technologies, the clustered regularly interspaced short palindromic repeat (CRISPR) associated nucleases Cas being one of them. CRISPR-Cas9 technology has the potential to revolutionize and accelerate the gene editing-based therapies in the clinical practice. It can be fine-tuned for direct modification of specific genome sites in target cells, opening up the possibility for rectifying cellular and metabolic defects associated with diseases such as DM. For instance, genes (e.g., octamer-binding transcription factor 4; OCT 4 and pancreatic duodenal homeobox 1; PDX 1) involved in the differentiation pathway of human β-cells can be identified and amended in transplantable pluripotent stem cells. The present perspective review summarizes the recent experimental successes in cellular and animal models for the utilization of the CRISPR-Cas9 technology in DM research. Further, we conclude with a discussion regarding the critical shortcomings of this technology and suggest means to circumvent these, with the expectation that this review will serve as a relevant and timely research platform aiding global research for further identification of novel and efficient CRISPR-Cas9-based anti-DM treatment strategies.
AbstractList	Diabetes mellitus (DM) is an excessively widespread condition resulting as a consequence of either autoimmune-mediated dysfunction of the pancreatic β-cells and abolishment of insulin production (Type I DM; T1DM), or deficient insulin production and irresponsiveness of cells to it (type II DM; T2DM). Either ways, the result is elevated blood glucose levels or hyperglycemia, the characteristic feature of DM. Tremendous efforts and resources have been spent in deciphering effective therapies/treatments against DM. In spite of hard-earned successes, the problems associated with DM still persist, warranting the need for exploration, development and application of novel dimensions in our quest for controlling this serious problem. Recent years have seen the emergence of promising genetic manipulation technologies, the clustered regularly interspaced short palindromic repeat (CRISPR) associated nucleases Cas being one of them. CRISPR-Cas9 technology has the potential to revolutionize and accelerate the gene editing-based therapies in the clinical practice. It can be fine-tuned for direct modification of specific genome sites in target cells, opening up the possibility for rectifying cellular and metabolic defects associated with diseases such as DM. For instance, genes (e.g., octamer-binding transcription factor 4; OCT 4 and pancreatic duodenal homeobox 1; PDX 1) involved in the differentiation pathway of human β-cells can be identified and amended in transplantable pluripotent stem cells. The present perspective review summarizes the recent experimental successes in cellular and animal models for the utilization of the CRISPR-Cas9 technology in DM research. Further, we conclude with a discussion regarding the critical shortcomings of this technology and suggest means to circumvent these, with the expectation that this review will serve as a relevant and timely research platform aiding global research for further identification of novel and efficient CRISPR-Cas9-based anti-DM treatment strategies.
Author	RUSTAGI, Sarvesh MALIK, Sumira FAGOONEE, Sharmila KISHORE, Shristi HAQUE, Shafiul BORA, Jutishna AHMAD, Faraz PELLICANO, Rinaldo
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Snippet	Diabetes mellitus (DM) is an excessively widespread condition resulting as a consequence of either autoimmune-mediated dysfunction of the pancreatic β-cells...
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SubjectTerms	Animal models Beta cells Blood levels Cell differentiation CRISPR Diabetes Diabetes mellitus Genomes Homeobox Hyperglycemia Insulin Nuclease Pancreas Pluripotency Reviews Therapeutic applications
Title	Therapeutic applications of CRISPR-Cas9 in diabetes mellitus: a perspective review
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