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2. RAB23 regulates musculoskeletal development and patterning

Author

Md. Rakibul Hasan, Anna Koskenranta, Kirsi Alakurtti, Maarit Takatalo, and David P. Rice

Subjects
knee, patella, RAB23, TGFβ2, scleraxis, GLI1, Biology (General), QH301-705.5
Abstract

RAB23 is a small GTPase which functions at the plasma membrane to regulate growth factor signaling. Mutations in RAB23 cause Carpenter syndrome, a condition that affects normal organogenesis and patterning. In this study, we investigate the role of RAB23 in musculoskeletal development and show that it is required for patella bone formation and for the maintenance of tendon progenitors. The patella is the largest sesamoid bone in mammals and plays a critical role during movement by providing structural and mechanical support to the knee. Rab23−/− mice fail to form a patella and normal knee joint. The patella is formed from Sox9 and scleraxis (Scx) double-positive chondroprogenitor cells. We show that RAB23 is required for the specification of SOX9 and scleraxis double-positive patella chondroprogenitors during the formation of patella anlagen and the subsequent establishment of patellofemoral joint. We find that scleraxis and SOX9 expression are disrupted in Rab23−/− mice, and as a result, development of the quadriceps tendons, cruciate ligaments, patella tendons, and entheses is either abnormal or lost. TGFβ-BMP signaling is known to regulate patella initiation and patella progenitor differentiation and growth. We find that the expression of TGFβR2, BMPR1, BMP4, and pSmad are barely detectable in the future patella site and in the rudimentary tendons and ligaments around the patellofemoral joint in Rab23−/− mice. Also, we show that GLI1, SOX9, and scleraxis, which regulate entheses establishment and maturation, are weakly expressed in Rab23−/− mice. Further analysis of the skeletal phenotype of Rab23−/− mice showed a close resemblance to that of Tgfβ2−/− mice, highlighting a possible role for RAB23 in regulating TGFβ superfamily signaling.

Published
2023
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4. Next-generation sequencing in childhood-onset epilepsies: Diagnostic yield and impact on neuronal ceroid lipofuscinosis type 2 (CLN2) disease diagnosis.

Author

Kimberly Gall, Emanuela Izzo, Eija H Seppälä, Kirsi Alakurtti, Lotta Koskinen, Inka Saarinen, Akashdeep Singh, Samuel Myllykangas, Juha Koskenvuo, and Tero-Pekka Alastalo

Subjects
Medicine, Science
Abstract

Epilepsy is one of the most common childhood-onset neurological conditions with a genetic etiology. Genetic diagnosis provides potential for etiologically-based management and treatment. Existing research has focused on early-onset (

Published
2021
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5. Next-generation sequencing in childhood-onset epilepsies: Diagnostic yield and impact on neuronal ceroid lipofuscinosis type 2 (CLN2) disease diagnosis

Author

Emanuela Izzo, Samuel Myllykangas, Inka Saarinen, Kimberly Gall, Kirsi Alakurtti, Lotta L. E. Koskinen, Tero-Pekka Alastalo, Eija H. Seppälä, Akashdeep Singh, and Juha Koskenvuo

Subjects
Male, Pediatrics, Social Sciences, Disease, Diagnostic Radiology, Motor Neuron Diseases, Cohort Studies, Epilepsy, Child Development, Medical Conditions, Medicine and Health Sciences, Psychology, Age of Onset, Medical diagnosis, Language, Movement Disorders, Multidisciplinary, Tripeptidyl-Peptidase 1, medicine.diagnostic_test, Radiology and Imaging, High-Throughput Nucleotide Sequencing, Neurodegenerative Diseases, Magnetic Resonance Imaging, Neuronal Ceroid Lipofuscinosis Type 2, Neurology, Child, Preschool, Speech delay, Cohort, Medicine, Medical genetics, Female, medicine.symptom, Research Article, medicine.medical_specialty, DNA Copy Number Variations, Imaging Techniques, Science, Research and Analysis Methods, Diagnostic Medicine, Neuronal Ceroid-Lipofuscinoses, Genetics, medicine, Humans, Genetic Testing, Genetic testing, business.industry, Cognitive Psychology, Biology and Life Sciences, Infant, Human Genetics, medicine.disease, Cognitive Science, Ataxia, business, Neuroscience
Abstract

Epilepsy is one of the most common childhood-onset neurological conditions with a genetic etiology. Genetic diagnosis provides potential for etiologically-based management and treatment. Existing research has focused on early-onset (

Published
2021

6. Diagnostic yield and clinical utility of genetic testing in children with seizure onset after two years of age: Update over 2 1/2-year program in Europe and the Middle East

Author

Lotta L. E. Koskinen, Emanuela Izzo, Eija H. Seppälä, Tero-Pekka Alastalo, Kirsi Alakurtti, Kimberly Gall, Akashdeep Singh, and Juha Koskenvuo

Subjects
Middle East, medicine.diagnostic_test, business.industry, Endocrinology, Diabetes and Metabolism, Yield (finance), Biochemistry, Seizure onset, Endocrinology, Genetics, medicine, business, Molecular Biology, Demography, Genetic testing
Published
2021

7. Diagnostic yield and clinical utility of genetic testing in children with seizure onset after 2 years of age: an update

Author

Kirsi Alakurtti, Eija H. Seppälä, Lotta L. E. Koskinen, Khalida Liaquat, Tero-Pekka Alastalo, Juha Koskenvuo, Akashdeep Singh, Kim Gall, and Emmanuela Izzo

Subjects
Pediatrics, medicine.medical_specialty, medicine.diagnostic_test, business.industry, Endocrinology, Diabetes and Metabolism, Yield (finance), Biochemistry, Seizure onset, Endocrinology, Genetics, medicine, business, Molecular Biology, Genetic testing
Published
2021

8. Utility of gene panel testing in children with seizure onset after 2 years of age: Results from a European and Middle Eastern epilepsy genetic testing program

Author

Lotta L. E. Koskinen, Emanuela Izzo, Kirsi Alakurtti, Eija H. Seppälä, Tero-Pekka Alastalo, Kimberly Gall, and Juha Koskenvuo

Subjects
Pediatrics, medicine.medical_specialty, medicine.diagnostic_test, business.industry, Endocrinology, Diabetes and Metabolism, medicine.disease, Biochemistry, Epilepsy, Seizure onset, Endocrinology, Gene panel, Genetics, medicine, business, Molecular Biology, Genetic testing
Published
2020

9. Cystatin B: mutation detection, alternative splicing and expression in progressive myclonus epilepsy of Unverricht-Lundborg type (EPM1) patients

Author

Mervi Kuronen, Saara Tegelberg, Laura Huopaniemi, Antti P. Aalto, Nina Aula, Paula Hakala, Roberto Michellucci, Kirsi Alakurtti, Anna-Elina Lehesjoki, Tarja Joensuu, and Kai Eriksson

Subjects
Male, DNA Mutational Analysis, Gene Expression, Progressive myoclonus epilepsy, Biology, medicine.disease_cause, Polymerase Chain Reaction, 03 medical and health sciences, 0302 clinical medicine, Unverricht-Lundborg Syndrome, Genetics, medicine, Humans, Protein Isoforms, Missense mutation, Cystatin B, RNA, Messenger, Genetics (clinical), 030304 developmental biology, 0303 health sciences, Mutation, Homozygote, Alternative splicing, Myoclonic Epilepsies, Progressive, medicine.disease, Cystatins, Unverricht–Lundborg disease, Alternative Splicing, RNA splicing, Female, Trinucleotide repeat expansion, 030217 neurology & neurosurgery, Microsatellite Repeats
Abstract

Progressive myoclonus epilepsy of Unverricht-Lundborg type (EPM1) is an autosomal recessive neurodegenerative disorder caused by mutations in the cystatin B gene (CSTB) that encodes an inhibitor of several lysosomal cathepsins. An unstable expansion of a dodecamer repeat in the CSTB promoter accounts for the majority of EPM1 disease alleles worldwide. We here describe a novel PCR protocol for detection of the dodecamer repeat expansion. We describe two novel EPM1-associated mutations, c.149G>A leading to the p.G50E missense change and an intronic 18-bp deletion (c.168+1_18del), which affects splicing of CSTB. The p.G50E mutation that affects the conserved QVVAG amino acid sequence critical for cathepsin binding fails to associate with lysosomes. This further supports the previously implicated physiological importance of the CSTB-lysosome association. Expression of CSTB mRNA and protein was markedly reduced in lymphoblastoid cells of the patients irrespective of the mutation type. Patients homozygous for the dodecamer expansion mutation showed 5–10% expression compared to controls. By combining database searches with RT-PCR we identified several alternatively spliced CSTB isoforms. One of these, CSTB2, was also present in mouse and was analyzed in more detail. In real-time PCR quantification, CSTB2 expression was less than 5% of total CSTB expression in all human adult and fetal tissues analyzed. In patients homozygous for the minisatellite mutation, the level of CSTB2 was reduced similarly to that of CSTB implicating regulation from the same promoter. The physiological significance of CSTB2 remains to be determined.

Published
2006

10. Prevention of Premature Fusion of Calvarial Suture in GLI-Kruppel Family Member 3 (Gli3)-deficient Mice by Removing One Allele of Runt-related Transcription Factor 2 (Runx2)*

Author

Maarit Takatalo, Yukiho Tanimoto, David P. Rice, Lotta Veistinen, and Kirsi Alakurtti

Subjects
musculoskeletal diseases, medicine.medical_specialty, congenital, hereditary, and neonatal diseases and abnormalities, animal structures, Acrocephalosyndactylia, Kruppel-Like Transcription Factors, Calvaria, Core Binding Factor Alpha 1 Subunit, Nerve Tissue Proteins, Smad Proteins, Biology, Biochemistry, Craniosynostosis, Mesoderm, 03 medical and health sciences, Mice, Zinc Finger Protein Gli3, Internal medicine, GLI3, Mesenchymal cell proliferation, Matrix Metalloproteinases, Secreted, medicine, Animals, Humans, Molecular Biology, 030304 developmental biology, Zinc finger transcription factor, Homeodomain Proteins, 0303 health sciences, Osteoblasts, 030302 biochemistry & molecular biology, fungi, Skull, Cell Differentiation, Cell Biology, DLX5, musculoskeletal system, medicine.disease, Mice, Mutant Strains, Cell biology, RUNX2, medicine.anatomical_structure, Endocrinology, embryonic structures, Developmental Biology, Signal Transduction
Abstract

Mutations in the gene encoding the zinc finger transcription factor GLI3 (GLI-Kruppel family member 3) have been identified in patients with Grieg cephalopolysyndactyly syndrome in which premature fusion of calvarial suture (craniosynostosis) is an infrequent but important feature. Here, we show that Gli3 acts as a repressor in the developing murine calvaria and that Dlx5, Runx2 type II isoform (Runx2-II), and Bmp2 are expressed ectopically in the calvarial mesenchyme, which results in aberrant osteoblastic differentiation in Gli3-deficient mouse (Gli3(Xt-J/Xt-J)) and resulted in craniosynostosis. At the same time, enhanced activation of phospho-Smad1/5/8 (pSmad1/5/8), which is a downstream mediator of canonical Bmp signaling, was observed in Gli3(Xt-J/Xt-J) embryonic calvaria. Therefore, we generated Gli3;Runx2 compound mutant mice to study the effects of decreasing Runx2 dosage in a Gli3(Xt-J/Xt-J) background. Gli3(Xt-J/Xt-J) Runx2(+/-) mice have neither craniosynostosis nor additional ossification centers in interfrontal suture and displayed a normalization of Dlx5, Runx2-II, and pSmad1/5/8 expression as well as sutural mesenchymal cell proliferation. These findings suggest a novel role for Gli3 in regulating calvarial suture development by controlling canonical Bmp-Smad signaling, which integrates a Dlx5/Runx2-II cascade. We propose that targeting Runx2 might provide an attractive way of preventing craniosynostosis in patients.

Published
2012

11. Noggin null allele mice exhibit a microform of holoprosencephaly

Author

Frank P. Luyten, Lotta Veistinen, Daniel Graf, Thimios A. Mitsiadis, David P. Rice, Eva Lana-Elola, Maarit Takatalo, Kirsi Alakurtti, Przemyslaw Tylzanowski, Ritva Rice, University of Zurich, and Rice, D P

Subjects
Nodal signaling, Bone Morphogenetic Protein 4, Mice, 0302 clinical medicine, Holoprosencephaly, Sonic hedgehog, Genetics (clinical), Mice, Knockout, 0303 health sciences, biology, Gene Expression Regulation, Developmental, General Medicine, Hedgehog signaling pathway, Patched-1 Receptor, Phenotype, Pituitary Gland, embryonic structures, Vomeronasal Organ, Signal Transduction, Patched Receptors, medicine.medical_specialty, 2716 Genetics (clinical), animal structures, Fibroblast Growth Factor 8, Receptors, Cell Surface, 610 Medicine & health, 03 medical and health sciences, FGF8, 1311 Genetics, GLI1, Internal medicine, Genetics, medicine, 1312 Molecular Biology, Animals, Hedgehog Proteins, Noggin, Molecular Biology, Alleles, 030304 developmental biology, Mouth, Palate, medicine.disease, Mice, Inbred C57BL, 10182 Institute of Oral Biology, Endocrinology, PTCH1, Face, biology.protein, Carrier Proteins, 030217 neurology & neurosurgery
Abstract

Holoprosencephaly (HPE) is a heterogeneous craniofacial and neural developmental anomaly characterized in its most severe form by the failure of the forebrain to divide. In humans, HPE is associated with disruption of Sonic hedgehog and Nodal signaling pathways, but the role of other signaling pathways has not yet been determined. In this study, we analyzed mice which, due to the lack of the Bmp antagonist Noggin, exhibit elevated Bmp signaling. Noggin(-/-) mice exhibited a solitary median maxillary incisor that developed from a single dental placode, early midfacial narrowing as well as abnormalities in the developing hyoid bone, pituitary gland and vomeronasal organ. In Noggin(-/-) mice, the expression domains of Shh, as well as the Shh target genes Ptch1 and Gli1, were reduced in the frontonasal region at key stages of early facial development. Using E10.5 facial cultures, we show that excessive BMP4 results in reduced Fgf8 and Ptch1 expression. These data suggest that increased Bmp signaling in Noggin(-/-) mice results in downregulation of the hedgehog pathway at a critical stage when the midline craniofacial structures are developing, which leads to a phenotype consistent with a microform of HPE.

Published
2011

12. A high-density association screen of 155 ion transport genes for involvement with common migraine

Author

Unda Todt, K. Steven LaForge, Aarno Palotie, Boukje de Vries, Maija Wessman, Andrew C. Heath, Michel D. Ferrari, Martin Dichgans, Dale R. Nyholt, Dennis G. Ballinger, Andreas Straube, Markus Färkkilä, Christian Kubisch, Jaakko Kaprio, Nicholas G. Martin, Eija Hämäläinen, Arn M. J. M. van den Maagdenberg, David Cox, Gisela M. Terwindt, V. Pfaffenrath, W. M. Monique Verschuren, Mikko Kallela, Hartmut Göbel, Tobias Freilinger, Mark J. Daly, Mari A. Kaunisto, Rune R. Frants, Kirsi Alakurtti, Lenore J. Launer, Leena Peltonen, Verneri Anttila, Grant W. Montgomery, Jan Brand, and Yiping Zhan

Subjects
Adult, Male, Migraine without Aura, Adolescent, Genotype, Single-nucleotide polymorphism, Biology, Polymorphism, Single Nucleotide, White People, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Gene Frequency, Genetics, medicine, SNP, Humans, Child, Molecular Biology, Allele frequency, Gene, Genetics (clinical), Familial hemiplegic migraine, Finland, 030304 developmental biology, Aged, Demography, Aged, 80 and over, 0303 health sciences, Ion Transport, KCNE2, General Medicine, Articles, Middle Aged, medicine.disease, Migraine with aura, Migraine, Genes, Case-Control Studies, biology.protein, Female, medicine.symptom, 030217 neurology & neurosurgery
Abstract

The clinical overlap between monogenic Familial Hemiplegic Migraine (FHM) and common migraine subtypes, and the fact that all three FHM genes are involved in the transport of ions, suggest that ion transport genes may underlie susceptibility to common forms of migraine. To test this leading hypothesis, we examined common variation in 155 ion transport genes using 5257 single nucleotide polymorphisms (SNPs) in a Finnish sample of 841 unrelated migraine with aura cases and 884 unrelated non-migraine controls. The top signals were then tested for replication in four independent migraine case-control samples from the Netherlands, Germany and Australia, totalling 2835 unrelated migraine cases and 2740 unrelated controls. SNPs within 12 genes (KCNB2, KCNQ3, CLIC5, ATP2C2, CACNA1E, CACNB2, KCNE2, KCNK12, KCNK2, KCNS3, SCN5A and SCN9A) with promising nominal association (0.00041 < P < 0.005) in the Finnish sample were selected for replication. Although no variant remained significant after adjusting for multiple testing nor produced consistent evidence for association across all cohorts, a significant epistatic interaction between KCNB2 SNP rs1431656 (chromosome 8q13.3) and CACNB2 SNP rs7076100 (chromosome 10p12.33) (pointwise P = 0.00002; global P = 0.02) was observed in the Finnish case-control sample. We conclude that common variants of moderate effect size in ion transport genes do not play a major role in susceptibility to common migraine within these European populations, although there is some evidence for epistatic interaction between potassium and calcium channel genes, KCNB2 and CACNB2. Multiple rare variants or trans-regulatory elements of these genes are not ruled out.

Published
2008

13. Loss of lysosomal association of cystatin B proteins representing progressive myoclonus epilepsy, EPM1, mutations

Author

Dick Lindhout, Anna-Elina Lehesjoki, Ekkehard Weber, Paula Salmikangas, Pekka Saukko, Gerit Theil, Ulla Lahtinen, Kirsi Alakurtti, Riitta Rinne, and Gerrit-Jan de Haan

Subjects
Cytoplasm, Muscle Fibers, Skeletal, Mutation, Missense, Progressive myoclonus epilepsy, Minisatellite Repeats, Biology, medicine.disease_cause, 03 medical and health sciences, 0302 clinical medicine, Mutant protein, Cricetinae, Genetics, medicine, Missense mutation, Animals, Humans, Cystatin B, RNA, Messenger, Promoter Regions, Genetic, Gene, Genetics (clinical), 030304 developmental biology, Cathepsin, Cell Nucleus, 0303 health sciences, Mutation, Cell Differentiation, medicine.disease, Myoclonic Epilepsies, Progressive, Molecular biology, Cystatins, Protein Transport, COS Cells, Lysosomes, 030217 neurology & neurosurgery
Abstract

Loss-of-function mutations in the cystatin B (CSTB), a cysteine protease inhibitor, gene underlie progressive myoclonus epilepsy of Unverricht–Lundborg type (EPM1), characterized by myoclonic and tonic–clonic seizures, ataxia and a progressive course. A minisatellite repeat expansion in the promoter region of the CSTB gene is the most common mutation in EPM1 patients and leads to reduced mRNA levels. Seven other mutations altering the structure of CSTB, or predicting altered splicing, have been described. Using a novel monoclonal CSTB antibody and organelle-specific markers in human primary myoblasts, we show here that endogenous CSTB localizes not only to the nucleus and cytoplasm but also associates with lysosomes. Upon differentiation to myotubes, CSTB becomes excluded from the nucleus and lysosomes, suggesting that the subcellular distribution of CSTB is dependent on the differentiation status of the cell. Four patient mutations altering the CSTB polypeptide were transiently expressed in BHK-21 cells. The p.Lys73fsX2-truncated mutant protein shows diffuse cytoplasmic and nuclear distribution, whereas p.Arg68X is rapidly degraded. Two missense mutations, the previously described p.Gly4Arg affecting the highly conserved glycine, critical for cathepsin binding, and a novel mutation, p.Gln71Pro, fail to associate with lysosomes. These data imply an important lysosome-associated physiological function for CSTB and suggest that loss of this association contributes to the molecular pathogenesis of EPM1.

Published
2004

14. Characterization of the cystatin B gene promoter harboring the dodecamer repeat expanded in progressive myoclonus epilepsy, EPM1

Author

Jorma J. Palvimo, Anna-Elina Lehesjoki, Tarja Joensuu, Kirsi Alakurtti, and Kimmo Virtaneva

Subjects
Proto-Oncogene Proteins c-jun, Sp1 Transcription Factor, Minisatellite Repeat, Recombinant Fusion Proteins, Molecular Sequence Data, Minisatellite Repeats, Biology, Regulatory Sequences, Nucleic Acid, 03 medical and health sciences, 0302 clinical medicine, Transcription (biology), Gene expression, Genetics, Animals, Humans, Cystatin B, RNA, Messenger, Luciferases, Promoter Regions, Genetic, Gene, 030304 developmental biology, Repetitive Sequences, Nucleic Acid, Regulation of gene expression, 0303 health sciences, Base Sequence, General Medicine, DNA, Sequence Analysis, DNA, Myoclonic Epilepsies, Progressive, Molecular biology, Cystatins, Gene Expression Regulation, COS Cells, Androgen Response Element, Trinucleotide repeat expansion, 030217 neurology & neurosurgery, Protein Binding
Abstract

Mutations in the gene encoding cystatin B (CSTB) are responsible for the primary defect in progressive myoclonus epilepsy of Unverricht-Lundborg type (EPM1). A novel and unique type of disease-causing mutation, an unstable dodecamer repeat expansion, accounts for the majority of EPM1 patients world-wide. This minisatellite repeat expansion, located in the putative promoter of CSTB 175 bp upstream from the translation initiation codon, appears to downregulate CSTB gene expression in vivo. We report here the characterization of the CSTB promoter using different promoter-luciferase gene constructs. Transient transfections of cultured mammalian cells suggest that the region from -670 to -1 bp from the translation initiation codon functions as the CSTB promoter. Active binding to five Sp1 and four AP1 sites as well as weak binding to an androgen response element (ARE) half site was demonstrated by electrophoretic mobility shift assays. The effect of the minisatellite expansion on the promoter activity was evaluated by comparing the activity of constructs containing wild-type and expanded alleles. An increase in the number of dodecamer units from three to 19 repeats lowered transcription in vitro by 10-fold. Northern analysis of lymphoblastoid RNA from individuals with 'premutation' length dodecamer repeat (12-17 copies) expansions showed decreased levels of CSTB mRNA expression. These data indicate that expansion of the dodecamer repeat located in the proximal promoter of CSTB severely disrupts the function of the promoter and thereby reduces transcription of CSTB.

Published
2000

16. Functional interaction of AIRE with PIAS1 in transcriptional regulation

Author

Tanja Ilmarinen, Taina Kytomaa, Ismo Ulmanen, Juha Saharinen, Fiona Yih-Ling Chan, Jacob-S. Seeler, Kirnmo Tanhuanpaa, Kirsi Alakurtti, Robyn Maree Slattery, Jorma J. Palvimo, Hannele Kangas, and Petra Eskelin

Subjects
Transcriptional Activation, Transcription, Genetic, Amino Acid Motifs, Immunology, Mutant, Biology, Transfection, Cell Line, Mice, 03 medical and health sciences, 0302 clinical medicine, Gene expression, Transcriptional regulation, Animals, Humans, Insulin, Nuclear Matrix, Cystatin B, Promoter Regions, Genetic, Molecular Biology, Gene, Sequence Deletion, 030304 developmental biology, Genetics, 0303 health sciences, Binding protein, Autoimmune regulator, Nuclear matrix, Cystatins, Protein Inhibitors of Activated STAT, Protein Structure, Tertiary, Cell biology, Androgen receptor, Protein Transport, Gene Expression Regulation, 030220 oncology & carcinogenesis, Small Ubiquitin-Related Modifier Proteins, Mutant Proteins, Protein Processing, Post-Translational, Protein Binding, Subcellular Fractions, Transcription Factors
Abstract

AIRE (autoimmune regulator) promotes the establishment of self-tolerance by regulating gene expression in the thymus. Mutations in AIRE lead to an autoimmune disease, APECED. Here we have identified PIAS proteins as novel AIRE interaction partners. Although PIAS proteins function as E3 SUMO ligases, AIRE is not sumoylated. We expressed AIRE, wt PIAS1, and PIAS1 mutants with deleted SP-RING domain or SUMO interaction motif (SIM) in different cell lines and demonstrate that AIRE and PIAS1 localize to adjacent nuclear bodies (NBs). The expression of AIRE enhances the formation of PIAS1 NBs. The ability of PIAS1 to localize into NBs and interconnect with AIRE is neither dependent on the SP-RING domain nor the SIM. Further, we show that PIAS1 is able to attract AIRE into SUMO1-containing complexes and that the process is dependent on the SIM of PIAS1. PIAS1 and AIRE concurrently activate the human insulin promoter, a known target gene of AIRE, and the SP-RING is required for this activation. Moreover, AIRE represses and PIAS1 activates the CSTB promoter, used as a model for a housekeeping promoter, and both the SP-RING and SIM are needed for its activation by PIAS1. Collectively, our data suggest that AIRE and PIAS1 interact functionally to regulate the activities of the target genes of AIRE.

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