A positive correlation between osteopetrosis and genetic disorder of CA II, TCIRG1, SNX10, CLCN7 genes and importance of CRISPR (Cas 9) in gene therapy: A review
Allami, Z., Humedii, H., Dragh, M., Alkhalidi, F. (2025). A positive correlation between osteopetrosis and genetic disorder of CA II, TCIRG1, SNX10, CLCN7 genes and importance of CRISPR (Cas 9) in gene therapy: A review. EKB Journal Management System, 9(2), 1-8. doi: 10.21608/jcbr.2025.322652.1371
Zainab Zamil Gataa Allami; Hawraa Dhumad Humedii; Maytham Abdulkahdim Dragh; Firas Khalid Alkhalidi. "A positive correlation between osteopetrosis and genetic disorder of CA II, TCIRG1, SNX10, CLCN7 genes and importance of CRISPR (Cas 9) in gene therapy: A review". EKB Journal Management System, 9, 2, 2025, 1-8. doi: 10.21608/jcbr.2025.322652.1371
Allami, Z., Humedii, H., Dragh, M., Alkhalidi, F. (2025). 'A positive correlation between osteopetrosis and genetic disorder of CA II, TCIRG1, SNX10, CLCN7 genes and importance of CRISPR (Cas 9) in gene therapy: A review', EKB Journal Management System, 9(2), pp. 1-8. doi: 10.21608/jcbr.2025.322652.1371
Allami, Z., Humedii, H., Dragh, M., Alkhalidi, F. A positive correlation between osteopetrosis and genetic disorder of CA II, TCIRG1, SNX10, CLCN7 genes and importance of CRISPR (Cas 9) in gene therapy: A review. EKB Journal Management System, 2025; 9(2): 1-8. doi: 10.21608/jcbr.2025.322652.1371

A positive correlation between osteopetrosis and genetic disorder of CA II, TCIRG1, SNX10, CLCN7 genes and importance of CRISPR (Cas 9) in gene therapy: A review

Egyptian Journal of Cancer and Biomedical Research
Volume 9, Issue 2, June 2025, Pages 1-8    PDF (645.34 K)
Document Type: Review Article
DOI: 10.21608/jcbr.2025.322652.1371
Authors
Zainab Zamil Gataa Allami* 1; Hawraa Dhumad Humedii2; Maytham Abdulkahdim Dragh1; Firas Khalid Alkhalidi3
1Department of Biology, College of Science, University of Misan, Maysan, Iraq
2College of Dentistry, University of Misan, Maysan , Iraq
3Maysan Health Directorate, Alzahrawi Surgical Hospital, Maysan, Iraq
Abstract
Osteopetrosis can be defined as a group of uncommon skeletal disorders that are genetically and clinically eterogeneous, often stemming from family history. In osteopetrosis, abnormal osteoclast function disrupts bone homeostasis. Thus, patients have unusually high bone density as their primary symptom, which can lead to easy bone fractures. As a result,
the disorderly, excessively dense bone that is brittle continues to grow unregulated. Depending on the inheritance pattern, three distinct types of osteopetrosis have been identified: X-linked osteopetrosis, autosomal recessive osteopetrosis (ARO), and autosomal dominant osteopetrosis (ADO). One of the primary causes of osteopetrosis is the carbonic anhydrase II gene. Carbonic acid is produced from carbon dioxide and water by the enzyme, which is then utilized to produce the acidic surroundings necessary for the breakdown of bone minerals and osteoclast activity.  Therefore, autosomal recessive osteopetrosis occurs when genetic alterations bring on a CAII deficit, while CLCN7, TCIRG1, and SNX10 are genes most frequently impacted by osteopetrosis.  SNX10 and TCIRG1 have been demonstrated to engage with protons pumped by vacuolar-type H(+)-ATPase (V-ATPase) at the osteoclast contact, respectively, while  CLCN7 works in concert with TCIRG1 to transport hydrogen ions outside of the cell. Therefore, defects of these genes cause nonfunctional osteoclasts to induce ineffective bone resorption and, thus, osteopetrosis. Finding genetic mutations in osteopetrosis patients can have significant predictions and therapeutic consequences. In this review, we hope to raise the consciousness of osteopetrosis in medicinal society and encourage more research into potential mutations in CA II, TCIRG1, SNX10, and CLCN7 that may be linked to elevated osteoblast activity and decreased osteoclast activity in patients with osteopetrosis  and highlight the importance of the CRISPR technology in gene therapy in the future. 
Keywords
Osteopetrosis; Genetic disorder; CRISPR
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