Scientists at Pacific Northwest Research Institute (PNRI) have overturned a long-held belief in genetics: that inheriting two harmful variants of the same gene always worsens disease. Instead, the team found that in many cases, two harmful variants can actually restore normal protein function.
Their work appears in the Proceedings of the National Academy of Sciences.
Parkinson’s disease (PD) is a debilitating and progressive neurodegenerative disorder caused by the loss of dopamine-producing neurons in the substantia nigra, a brain region essential for motor control. Clinically, it is marked by tremor, rigidity, bradykinesia and postural instability, symptoms that progressively erode independence and quality of life.
PD affects millions of people worldwide, including nearly one million individuals in the United States, making it one of the fastest-growing neurological disorders. In the U.S. alone, the disease imposes a profound health care and socioeconomic burden, with annual costs reaching tens of billions of dollars due to medical care, lost productivity and long-term disability.
While environmental factors contribute to disease risk, genetic drivers are increasingly recognized, with mutations in the leucine-rich repeat kinase 2 (LRRK2) gene representing one of the most common causes of both familial and sporadic PD. Understanding how LRRK2 mutations drive disease is therefore central to developing therapies that go beyond symptoms control.
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💡 Future Business Tech explores the future of technology and the world.
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• Artificial Intelligence & Robotics.
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This video explores the future of ChatGPT and 10 ways it could change society. Other related terms: aliens, alien species, advanced civilization, genetic engineering, robot, mind upload, mind uploading, brain computer interface, artificial intelligence, ai, future business tech, future technology, future technologies, etc.
Organs often have fluid-filled spaces called lumens, which are crucial for organ function and serve as transport and delivery networks. Lumens in the pancreas form a complex ductal system, and its channels transport digestive enzymes to the small intestine. Understanding how this system forms in embryonic development is essential, both for normal organ formation and for diagnosing and treating pancreatic disorders. Despite their importance, how lumens take certain shapes is not fully understood, as studies in other models have largely been limited to the formation of single, spherical lumens. Organoid models, which more closely mimic the physiological characteristics of real organs, can exhibit a range of lumen morphologies, such as complex networks of thin tubes.
Researchers in the group of Anne Grapin-Botton, director at the Max Planck Institute of Molecular Cell Biology and Genetics (MPI-CBG) in Dresden, Germany, and also Honorary Professor at TU Dresden, teamed up with colleagues from the group of Masaki Sano at the University of Tokyo (Japan), Tetsuya Hiraiwa at the Institute of Physics of Academia Sinica (Taiwan), and with Daniel Rivéline at the Institut de Génétique et de Biologie Moléculaire et Cellulaire (France) to explore the processes involved in complex lumen formation. Working with a combination of computational modeling and experimental techniques, the scientists were able to identify the crucial factors that control lumen shape.
Three-dimensional pancreatic structures, also called pancreatic organoids, can form either large spherical lumen or narrow complex interconnected lumen structures, depending on the medium in the dish. By adding specific chemical drugs altering cell proliferation rate and pressure in the lumen, we were able to change lumen shape. We also found that making the epithelial cells surrounding the lumen more permeable reduces pressure and can change the shape of the lumen as well.
A study being conducted at The Hebrew University of Jerusalem, led by Professor Sagiv Shifman, found that many genes are essential for healthy brain cell development, but only a small share are currently connected to recognized neurodevelopmental disorders.
Read more from ynet here.
The researchers also identified clear patterns in how different genes contribute to disease. Genes that regulate other genes, such as transcription and chromatin regulators, were more often linked to dominant disorders, where a mutation in a single copy of a gene can cause illness. In contrast, genes involved in metabolic processes were typically associated with recessive disorders, requiring mutations in both copies of the gene.
To validate their findings, the team studied eight genes in mouse models — including PEDS1, EML1 and SGMS1 — and found major abnormalities in brain structure. In four of the cases, the mice developed microcephaly, a condition marked by an abnormally small brain.
One gene, PEDS1, emerged as particularly significant. The gene plays a key role in producing plasmalogens, a class of lipids essential to cell membranes and nerve tissue. When PEDS1 was disabled in mice, brain cells exited the cell cycle too early and failed to properly differentiate and migrate, severely impairing brain development.
A newly identified and rare genetic variant slows the growth of mutated blood stem cells, researchers report in Science, and it reduces the risk of leukemia.
The findings offer insight into why some people are naturally more resistant to clonal expansion and age-related blood cancers despite acquiring risky mutations.
Learn more in a new Science Perspective.
A genome-wide association study identifies a genetic variant that reduces the risk of leukemia.
Francisco Caiado and Markus G. Manz Authors Info & Affiliations
Science
Here, Nicole J. Moreland & team report widespread antibody heterogeneity between cases, yet identify a protein expressed in cardiac muscle as an immunodominant autoantigen with potential as a diagnostic biomarker.
1Department of Molecular Medicine, and.
2Maurice Wilkins Centre for Biodiscovery, The University of Auckland, Auckland, New Zealand.
3Department of Genetics and Genomic Sciences, Icahn School of Medicine at Mount Sinai, New York, New York, USA.
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