• Evidence for the multigenic inheritance of schizophrenia

      Freedman, Robert; Leonard, Sherry; Olincy, Ann; Kaufmann, Charles A.; Malaspina, Dolores; Cloninger, C. Robert; Svrakic, Dragan; Faraone, Stephen V.; Tsuang, Ming T. (Wiley, 2002-08-21)
      Schizophrenia is assumed to have complex inheritance because of its high prevalence and sporadic familial transmission. Findings of linkage on different chromosomes in various studies corroborate this assumption. It is not known whether these ®endings represent heterogeneous inheritance, in which various ethnic groups inherit illness through different major gene effects, or multigenic inheritance, in which affected individuals inherit several common genetic abnormalities. This study therefore examined inheritance of schizophrenia at different genetic loci in a nationally collected European American and African American sample. Seventy-seven families were previously genotyped at 458 markers for the NIMH Schizophrenia Genetics Initiative. Initial genetic analysis tested a dominant model, with schizophrenia and schizoaffective disorder, depressed type, as the affected phenotype. The families showed one genome-wide significant linkage (Z ¼ 3.97) at chromosome 15q14, which maps within 1 cM of a previous linkage at the a7-nicotinic receptor gene. Chromosome 10p13 showed suggestive linkage (Z ¼ 2.40). Six others (6q21, 9q32, 13q32, 15q24, 17p12, 20q13) were positive, with few differences between the two ethnic groups. The probability of each family transmitting schizophrenia through two genes is greater than expected from the combination of the independent segregation of each gene. Two trait-locus linkage analysis supports a model in which genetic alleles associated with schizophrenia are relatively common in the general population and affected individuals inherit risk for illness through at least two different loci.
    • Examining the Comorbidity Between Attention Deficit Hyperactivity Disorder and Bipolar I Disorder: A Meta-Analysis of Family Genetic Studies

      Faraone, Stephen V.; Biederman, Joseph; Wozniak, Janet (American Psychiatric Association Publishing, 2012-12)
      Objective: The existence of comorbidity between attention deficit hyperactivity disorder (ADHD) and bipolar I disorder has been documented in clinical and epidemiological studies, in studies of children and adults, and in diagnosed ADHD and bipolar I patient samples. Yet questions remain about the validity of diagnosing bipolar I disorder in ADHD youth. The authors aim to clarify these issues by reviewing family genetic studies of ADHD and bipolar I disorder. Method: The authors applied randomeffects meta-analysis to family genetic studies of ADHD and bipolar I disorder. Twenty bipolar proband studies provided 37 estimates of the prevalence of ADHD in 4,301 relatives of bipolar probands and 1,937 relatives of comparison probands. Seven ADHD proband studies provided 12 estimates of the prevalence of bipolar I disorder in 1,877 relatives of ADHD probands and 1,601 relatives of comparison probands. Results: These studies found a significantly higher prevalence of ADHD among relatives of bipolar probands and a significantly higher prevalence of bipolar I disorder among relatives of ADHD probands. These results could not be accounted for by publication biases, unusual results from any one observation, sample characteristics, or study design features. The authors found no evidence of heterogeneity in the ADHD or bipolar family studies. Conclusions: The results suggest that ADHD plus bipolar comorbidity cannot be accounted for by misdiagnoses, but additional research is needed to rule out artifactual sources of comorbidity. More research is also needed to determine whether comorbidity of ADHD and bipolar I disorder constitutes a familial subtype distinct from its constituent disorders, which if confirmed would have implications for diagnostic nosology and genetic studies.
    • Expression and Function of Paxillin Genes in Zebrafish: A Role in Skeletal Muscle Development

      Turner, Chris; Amack, Jeffrey; Jacob, Andrew (2017)
      Paxillin is a key component of the Integrin adhesion complex, which regulates cellular signaling events in response to extracellular matrix interactions. Although the roles for Paxillin in cell migration have been extensively studied, less is understood about its role in vertebrate development. Depletion of Paxillin from mouse embryos results in early lethality due to impaired cardiovascular development and function, necessitating the development of alternative vertebrate genetic models for examining the role of Paxillin during embryogenesis. Zebrafish have emerged as an experimental vertebrate model amenable to genetic manipulation. The work compiled herein first characterizes the expression profiles for Paxillin genes in zebrafish, and then describes the embryonic phenotypes observed upon mutation of these genes. The identification of two Paxillin genes in zebrafish, pxnaand pxnb, provided new insight into the evolution of this gene family in the Teleost lineage. Both overlapping and unique expression profiles for these genes during zebrafish embryogenesis were uncovered. While both genes are expressed in developing skeletal muscle, pxnawas restricted to the notochord during earlier stages of embryogenesis and pxnbwas expressed in the developing heart. Targeted mutation of either gene alone did not impair embryonic development, suggesting partial functional redundancy between each gene during embryogenesis. Accordingly, combined mutations in pxnaand pxnbrevealed defects during the development ofseveral embryonic tissues. In particular, skeletal muscle morphogenesis iiiwas perturbed in these double mutant embryos. Further characterization revealed that Paxillin genes in zebrafish serve to regulate embryonic myotome shape and proper extracellular matrix composition during muscle development. The amount of Laminin was reduced, while the abundance of Fibronectin persisted, during myotome morphogenesis in Paxillin double mutant embryos. In addition, a role for cytoskeletal contractility in regulatingsubcellular localization of Paxillin in developing skeletal muscle was established. Defects in the development of the cardiovascular system were also apparent in Paxillin double mutant embryos, and future work will focus on characterizing these in further detail. Altogether, this work provides a new vertebrate model to use for understanding the role of Paxillin during embryonic development, and uncovers an unrecognized role for Paxillin in establishing the extracellular matrix of skeletal muscle.
    • Familial Risk Analyses of Attention Deficit Hyperactivity Disorder and Substance Use Disorders

      Biederman, Joseph; Petty, Carter R.; Wilens, Timothy E.; Fraire, Maria G.; Purcell, Caitlin A.; Mick, Eric; Monuteaux, Michael C.; Faraone, Stephen V. (American Psychiatric Association Publishing, 2008-01)
      Objective: A robust and bidirectional comorbidity between attention deficit hyperactivity disorder (ADHD) and psychoactive substance use disorder (alcohol or drug abuse or dependence) has been consistently reported in the extant literature. Method: First-degree relatives from a large group of pediatrically and psychiatrically referred boys with (112 probands, 385 relatives) and without (105 probands, 358 relatives) ADHD were comprehensively assessed by blind raters with structured diagnostic interviews. Familial risk analysis examined the risks in first-degree relatives for ADHD, psychoactive substance use disorder, alcohol dependence, and drug dependence after stratifying probands by the presence and absence of these disorders. Results: ADHD in the proband was consistently associated with a significant risk for ADHD in relatives. Drug dependence in probands increased the risk for drug dependence in relatives irrespective of ADHD status, whereas alcohol dependence in relatives was predicted only by ADHD probands with comorbid alcohol dependence. In addition, ADHD in the proband predicted drug dependence in relatives, and drug dependence in comparison probands increased the risk for ADHD in relatives. Both alcohol dependence and drug dependence bred true in families without evidence for a common risk between these disorders. Conclusions: Patterns of familial risk analysis suggest that the association between ADHD and drug dependence is most consistent with the hypothesis of variable expressivity of a common risk between these disorders, whereas the association between ADHD and alcohol dependence is most consistent with the hypothesis of independent transmission of these disorders. Findings also suggest specificity for the transmission of alcohol and drug dependence.
    • Family based association analysis of statistically derived quantitative traits for drug use in ADHD and the dopamine transporter gene

      Lasky-Su, Jessica; Biederman, Joseph; Doyle, Alysa E.; Wilens, Timothy; Monuteaux, Michael; Smoller, Jordan W.; Faraone, Stephen V. (Elsevier BV, 2006-06)
      Objective To determine whether SNPs within the dopamine transporter gene (DAT) are associated with quantitative phenotypes generated from drug frequency variables in an ADHD sample. Method 35 SNPs were genotyped in and around DAT. We developed a quantitative phenotype at each SNP by weighting the drug frequency variables. The weights were selected to maximize the heritability at each SNP. Once a quantitative phenotype was generated at each SNP, a screening procedure was used to select and test the SNPs with the greatest power to detect an association in DAT. Results No SNPs in DAT were associated with the quantitative phenotypes generated from the drug frequency variables after the multiple comparisons adjustment; however, some SNPs achieved nominal significance. A sliding window of analysis of 3 SNPs also resulted in only nominal associations. Conclusions SNPs in DAT do not appear to be associated with the phenotypes generated from drug frequency variables among individuals with ADHD.
    • Family based association study of pediatric bipolar disorder and the dopamine transporter gene (SLC6A3)

      Mick, Eric; Kim, Jang Woo; Biederman, Joseph; Wozniak, Janet; Wilens, Timothy; Spencer, Thomas; Smoller, Jordan W.; Faraone, Stephen V. (Wiley, 2008-10-05)
      Thedopaminetransportergene(SLC6A3) isacompelling candidate for pediatric bipolar disorder because (a) it has been associated with ADHD, (b) bipolar comorbidity with ADHD has been hypothesized to be an etiologically distinct familial subtype (c) blockade of the dopamine transporter with psychostimulants can induce mania in susceptible individualsand(d) previous studies have implicated the gene in bipolar disorder in adults. We conducted a family-based association study of SLC6A3 in 170 affected offspring trios defined by a child (12.9 5.3 years of age)with DSM-IV Bipolar-I disorder. Twenty-eight tag SNPs were chosen from the CEU (European) population of the International HapMap project (www.hapmap.org). Results indicated nominally positive association for 4 SNPs (rs40184, rs11133767, rs3776512, and rs464049), but only rs40184 survived correction formultiple statistical comparisons (P¼0.038). This is the first examination of the association with SLC6A3 and bipolar disorder in children and, like previous findings in adults with bipolar disorder, we found evidence of association with SNPs in the 30 region of the gene. These data provide suggestive evidence supporting a role for SLC6A3 in the etiology of pediatric bipolar disorder.
    • Family-based and case-control association studies of catechol-O-methyltransferase in attention deficit hyperactivity disorder suggest genetic sexual dimorphism

      Qian, Qiujin; Wang, Yufeng; Zhou, Rulun; Li, Jun; Wang, Bing; Glatt, Stephen; Faraone, Stephen V. (Wiley, 2003-03-04)
      Attention deficit hyperactivity disorder (ADHD) is the most common childhood-onset behavioral disorder. Boys are more often affected than girls. Family, twin, and adoption studies have supported a strong genetic basis. Some studies show that a catechol-O-methyltransferase (COMT) polymorphism affecting enzyme activity was associated with personality characteristics and diseases, such as novelty-seeking personality, substance abuse, and heroin addiction, whose features are similar to ADHD or are associated with ADHD. These findings suggest that the COMT gene may be a candidate gene for ADHD. TDT, HHRR, and case-control association studies were conducted within a sample of 202 nuclear ADHD families, 340 ADHD cases, and 226 controls in the Han Chinese population. Diagnoses and ADHD subtypes were ascertained according to DSM-IV criteria using American Clinical Diagnostic Interviewing Scales. The HHRR analysis suggested that the low enzyme-activity COMT Met allele was preferentially transmitted to ADHD boys (160 trios, χ2 = 3.858, P = 0.05, df = 1) but not girls. This association is particularly pronounced among male ADHD probands without any comorbidity (50 trios, HHRR: χ2 = 5.128, P = 0.024, df = 1; TDT: χ2 = 4.558, P = 0.033, df = 1), especially the ADHD-I subtype (32 trios, HHRR: χ2 = 5.792, P = 0.016, df = 1; TDT: χ2 = 5.333, P = 0.021, df = 1). The case-control study revealed that the Val allele was more frequent in females meeting ICD-10 or DSM-IV criteria for ADHD than in female controls (86 and 79.5%, respectively, χ2 = 4.059, P = 0.044, df = 1). Although these results suggest the COMT gene exerts some influence on the risk for ADHD in the Han Chinese population, given the potential for Type I error, these findings require replication before drawing definitive conclusions. © 2003 Wiley-Liss, Inc.
    • Family-based association study of markers on chromosome 22 in schizophrenia using African-American, European-American, and Chinese families

      Takahashi, Sakae; Cui, Yu-hu; Kojima, Takuya; Han, Yong-hua; Zhou, Ru-lum; Kamioka, Masashi; Yu, Shun-ying; Matsuura, Masato; Matsushima, Eisuyke; Wilcox, Marsha; et al. (Wiley, 2003-06-13)
      Several studies suggest that loci at chromosome 22q11.2-q13 might be linked to susceptibility to schizophrenia. Here we performed family-based association studies on chromosome 22q using 12 DNA microsatellite markers in African-American, European-American, and Chinese pedigrees. The marker D22S683 showed significant linkage and association with schizophrenia in not only the European-American sample but also in a combined sample (European-American and Chinese samples). Notably, D22S683 is located nearby and between D22S278 and D22S283, which have shown linkage and association to schizophrenia in prior reports. However, we found no significant association for the African-American sample. In conclusion, our data provide further support for the idea that the region around D22S683 contains a susceptibility gene for schizophrenia. © 2003 Wiley-Liss, Inc.
    • FH2-dependent Localization of FHOD Formins in the Sarcomere

      Blystone, Scott; Hamilton, Elisabeth (2016)
      Formins are a class of actin nucleating factors containing a highly-conserved FH2 domain, which binds actin. There are 15 mammalian formin proteins in seven sub-families that have been found to nucleate, cap, sever, bundle, and polymerize linear actin filaments. An expression analysis of all 15 human formins across 22 different cell and tissue types showed high levels of expression for one formin sub-family in striated muscle: FHOD. While FHOD1 is highly expressed across many cell and tissue types, FHOD3 is only found at comparatively high levels in striated muscle cells. The mature structure of skeletal muscle is a very recognizable periodic repetition of filaments that allows muscles to contract. The sarcomere is the smallest contractile unit of skeletal muscle, with the two main filaments, the thick filament containing myosin, and the thin filament containing actin moving back and forth via the interaction of myosin heads with the thin filament, which allows muscles to contract. While the molecular functioning and the mature structure of skeletal muscle is well understood, the exact mechanism by which the sarcomere is assembled, and specifically, how the actin-core of the thin filament is formed and incorporated into the thin filament remains unknown. The high levels of expression of FHOD formins in striated muscle, combined with their ability to interact with filamentous actin warranted a closer look at FHOD1 and FHOD3 in the sarcomere. In this study we found that FHOD1 and FHOD3 have distinct sarcomeric localizations in C2C12 cells. FHOD1 localizes to the barbed end of the actin filament at the Z-disk and FHOD3 localizes to the pointed end of the actin filament near the center of the sarcomere. Full-length cDNA constructs for FHOD1 and FHOD3 were introduced into skeletal muscle cells, and we were able to recreate the endogenous localization of FHOD3 with the exogenous cDNA. The FHOD1 cDNA localized not to the barbed end of the actin filament, as endogenous FHOD1 does, but instead to the pointed end of the actin filament, where endogenous and exogenous FHOD3 were found. We hypothesized that FHOD binding to actin is dependent upon two highly conserved actin-binding sites in the FH2 domain. Mutations of the actin-binding residues in the FH2 domain impaired the actin-binding ability of both exogenous FHOD1 and FHOD3 and showed that the localization of FHOD1 and FHOD3 in the sarcomere is actin-binding dependent.
    • The Formin FMNL1 Contributes to the Macrophage Inflammatory Response by Regulating Podosome-dependent Adhesion and Migration.

      Blystone, Scott; Miller, Matthew (2015)
      Macrophages are indispensible white blood cells (leukocytes) that contribute to both the innate and adaptive immune response. They are crucial for resolving inflammatory events by clearing pathogens and cellular debris, in addition to promoting wound repair. Macrophages are derived from peripherally circulating monocytes, which after stimulation undergo diapedesis from the vasculature into the underlying complex extracellular matrix, where they can become fully differentiated macrophages and migrate to inflammatory loci. Tissues also contain residential populations of macrophages that aid in immediate immune responses and maintain tissue homeostasis. Conversely, unwarranted macrophage activation largely contributes to the onset and progression of inflammatory diseases, such as atherosclerosis and rheumatoid arthritis, in addition to aiding cancer metastasis and facilitating organ transplant rejection. In order for macrophages to effectively resolve inflammatory events or contribute to disease pathology, they must be able to undergo directional migration, which is mediated by integrin-dependent adhesion complexes termed podosomes. Macrophage podosomes are the most prominent structure of the macrophage actin cytoskeleton, containing a pillar-like core of dense filamentous actin that is tethered to the cortical actincytoskeleton via radial actin filaments. Podosomes also contain a variety of proteins that are circumferentially arranged orassociated with the core, and thatare involved in signaling, linking, and scaffolding,as well as modulating the actin cytoskeleton.Historically, our lab has been interested in leukocyte integrin biology and understanding how these receptors mediate adhesion and migration through complex extracellular matrices. Previous studies in our lab demonstrated the novel podosomal association of an actin modulating protein with the ability to processively elongate unbranched linear actin filaments. Subsequent studies determined this protein to be the formin FMNL1, which is predominantly expressed in hematopoietic cells. Consequently, we further revealed that FMNL1 localizes to the apex of the dense actin core, and is required for podosome stability and macrophage adhesion.The work described in this dissertation has greatly expanded on these findings, demonstrating for the first time that primary macrophage migration is dependent on the formin FMNL1. Utilizing in vitro and in vivotechniques with aid of a novel conditional murine FMNL1 KO, we have observed that macrophage podosome formation, migration, and tissue distribution are dependent on FMNL1. Additionally, we have indicated that FMNL1 is required for embryonic development. Remarkably, our findings also suggest that FMNL1-dependent macrophage migration and podosome localization rely on the specific isoform FMNL1γ. Foremost, we have demonstrated that barbed end binding by the FMNL1γ FH2 domain is dispensable for its cellularfunction in macrophages, which has not been previously shown for any other cellular formin function. Thus, these findings, in addition to current formin knowledge, have allowed us develop a working model for FMNL1 function at macrophage podosomes. This work has distinguished FMNL1 as a unique therapeutic target to restrict macrophage migration that contributes to macrophage-mediated diseases. Furthermore, this could translate to treatment of certain cancers, since FMNL1 has been suggested to promote leukemic cell migration.
    • Functional alterations and rhythmic disturbances by pan-histone deacetylase inhibition in the heart.

      Veenstra, Richard; Patel, Dakshesh (2016)
      Histone acetyl transferases (HATs) and histone deacetylases (HDACs) maintain a dynamic balance of acetylation and deacetylation of histone and non-histone proteins. HDAC inhibitors are small molecules anti-cancer therapeutics that exhibited dose limiting cardiac toxicities during clinical and preclinical trials. Multiple instances of abnormal T-waves, ST segment depression, QT prolongation, grade 3 sinus bradycardia and non- circumstantial deaths have been observed in patients. The underlying electrophysiological and molecular mechanism of these cardiac side-effects are poorly understood. In our in vivo ECG monitoring using Data Science International® telemetry transmitters, mice injected with panobinostat showed ventricular tachychardic and atrial fibrillation episodes with significant prolongation of ST, QT and QTc intervals. In whole cell patch clamp studies, we observed no significant change in transient and steady state K currents in myocyte ventricular cultures suggesting no role of hERG currents in ventricular arrhythmias. The majority (>90%) of congenital and drug induced QT prolongation is caused by alterations of hERG (IKr, Kv11.1) current. Interestingly, we observed significant reductions of INa and gap junctional conductance along with reductions in protein expression of Nav1.5 & Cx43 in vivo and in vitro. We conclude that pan-HDAC inhibition reduced cardiac INa density and gap junctional coupling with unaltered late INa and K+ currents explaining the cardiac abnormalities exhibited by panHDAC inhibitors. Decreased gap junctional coupling can enhance triggered activity by limiting electrotonic inhibition, combined with reduced INa density which can lead to slow myocardial conduction. Both of them taken together, increases the vulnerability to reentrant arrhythmias.
    • Functional Studies of Tumor Suppressor ECRG2 in the Regulation of Cancer Cell Death and Drug Resistance

      Huang, Ying; Lucchesi, Chris (2015)
      Esophageal Cancer Related Gene 2 (ECRG2) is a newer tumor suppressor whose mRNAhas previously been shown to be decreased in multiple human malignanceswhencompared to normal/adjacent tissues.Of importance, ECRG2 has previously been revealedto possess tumor suppressive attributes,including the ability to induce cell death in cancer cells. However, how ECRG2 is able to activate the apoptotic machinery has yet to be elucidated. In the present study,we highlight multiple angles that ECRG2 leverages in order to sensitize cancer cells to apoptosis. Moreover, we report for the first time,that ECRG2 protein expression in lung cancer patientsamples is lost/decreased in upwards of 90% ofthecancer tissues evaluatedcompared to normal tissue. Additionally, a single somatic point mutant found in patient tumor samples, V30E, was shown to lose tumor suppressive abilities and acquired resistance against multiple anticancer drugs. Our results demonstrate that ECRG2is upregulated in response to DNA damage, andis capable of inducing the activation of both caspase cascades (intrinsic and extrinsic) leadingto cancer cell death. We further illustratedthat ECRG2-mediated cell deathwasattributed to a reduction in the levels of apoptosis inhibitor, X chromosome-linked inhibitor of apoptosis protein (XIAP). ECRG2 was revealedto regulate XIAP protein levels via RNA-binding protein,human antigen R(HuR).We further highlight that ECRG2 causes increased HuR ubiquitination,subsequently leading to its degradation. Thus, we demonstrate that ECRG2 sensitizescancer cells to apoptosis through the downregulation of HuR, and consequent downregulation of XIAP. Next, we have identified ECRG2 as a potent positive regulator of death receptor 5 (DR5) gene expression.ECRG2-mediated upregulation of DR5 was shown to be facilitated through the upregulation of tumor suppressor p53 and transcription factors ATF3 and NFⱪB. Together, in a cooperative fashion, increased levelsof p53, ATF3 and NFⱪB stimulateDR5 gene expression. Contrastingly, silencing of ECRG2 not only decreased the levels of NFⱪB and DR5, but also resulted in decreased cancer cell sensitivity to genotoxic stressandTRAIL treatment. Collectively,our work establishes that ECRG2 is capable of inducing apoptosis in cancer cells by increasing the expression of pro-apoptotic proteins, while also negatively influencing anti-apoptotic proteins.Further, the loss of ECRG2’stumor suppressive abilities, as wehaveshownby the loss of ECRG2in lung patient tumor samples,and through the somatic point mutantV30E, illuminates possible mechanismsin which cancer cells can acquiremultiple drug resistance.
    • Further evidence of an association between maternal smoking during pregnancy and attention deficit hyperactivity disorder: Findings from a high-risk sample of siblings

      Milberger, Sharon; Biederman, Joseph; Faraone, Stephen V.; Jones, Janice (Informa UK Limited, 1998-09)
      The authors investigated the relationship between attentiondeficit/byperactivity disorder (ADHD) and cigarette smoking in siblings of ADHD and non-ADHD probands. They conducted a 4-year follow-up of siblings from ADHD and control-group families. In the siblings of ADHD probands, ADHD was associated with higher rates and earlier onset of cigarette smoking. There was also a significant positive association between cigarette smoking and conduct disorder, major depression, and drug abuse in the siblings, even after adjusting for confounding variables. Moreover, smoking was found to be familial among ADHD families but not control-group families. Our findings indicate that ADHD is a risk factor for early initiation of cigarette smoking in the high-risk siblings of ADHD probands
    • Further Evidence of Association Between Behavioral Inhibition and Social Anxiety in Children

      Biederman, Joseph; Hirshfeld-Becker, Dina R.; Rosenbaum, Jerrold F.; Hérot, Christine; Friedman, Deborah; Snidman, Nancy; Kagan, Jerome; Faraone, Stephen V. (American Psychiatric Association Publishing, 2001-10)
      Objective: The authors sought to examine psychopathological correlates of behavioral inhibition in young offspring of parents with panic disorder and/or major depression. Method: Behavioral inhibition, determined by using standard laboratory observations, was assessed in four groups of children (age 2–6 years): 129 children of parents with both panic disorder and major depression, 22 children of parents with panic disorder alone, 49 children of parents with major depression alone, and 84 comparison children of parents with neither panic disorder nor major depression. Psychopathology in children ≥5 years was compared between children with behavioral inhibition (N=64) and without (N=152). Results: Social anxiety disorder (social phobia or avoidant disorder) was significantly more likely to be found in the children with behavioral inhibition (17%) than in those without (5%). Noninhibited children were significantly more likely than inhibited children to have disruptive behavior disorders (20% versus 6%, respectively) and had higher scores on the attention problems scale of the Child Behavior Checklist (mean=52.1 versus 50.8). Conclusions: This study adds to the growing literature suggesting an association between behavioral inhibition and social anxiety disorder and an inverse relationship between inhibition and disruptive behavior disorders.
    • Further investigation of a chromosome 15 locus in schizophrenia: Analysis of affected sibpairs from the NIMH genetics initiative

      Leonard, Sherry; Gault, Judith; Moore, Theodore; Hopkins, Jan; Robinson, Misi; Olincy, Ann; Adler, Lawrence E.; Cloninger, C. Robert; Kaufmann, Charles A.; Tsuang, Ming T.; et al. (Wiley, 1998-07-10)
      Linkage of a neurophysiological deficit associated with schizophrenia, i.e., the failure to inhibit the auditory P50 response, was previously reported at chromosome 15q14. The marker with the highest pairwise lod score, D15S1360, was isolated from a yeast artificial chromosome containing a candidate gene, the α7-nicotinic acetylcholine receptor gene. In the present study, this linkage was further investigated in a subset of the NIMH Genetics Initiative schizophrenia families. These families have not been studied neurophysiologically, as were the families in the original report. Therefore, the DSMIII-R diagnosis of schizophrenia was used as the affected phenotype. Twenty families fulfilled the criteria of at least one sibpair concordant for schizophrenia, along with their two parents or another affected relative outside the nuclear family, available for genotyping. Sibpair analysis showed a significant proportion of D15S1360 alleles shared identical-by-descent (0.58; P < 0.0024). The results further support the involvement of this chromosomal locus in the genetic transmission of schizophrenia. Am. J. Med. Genet. (Neuropsychiatr. Genet.) 81:308–312, 1998. © 1998 Wiley-Liss, Inc.
    • GENESIS AND MAINTENANCE OF LONG-TERM IgM+ T-BET+ B CELLS

      Papillion, Amber (2017)
      IgM memory cells are recognized as an important component of B cell memory, based on several studies both in mice and humans. Our studies of B cells elicited in response to ehrlichial infection identified a population of CD11c/T-bet-positive IgM memory cells and an IgM T-bet-positive bone marrow antibody-secreting cell population (ASCs). The origin of these populations was unknown, although an early T-independent spleen CD11c-and T-bet-positive IgM plasmablast population precedes both, suggesting a linear relationship. The majority of IgM memory cells detected after day 30 post-infection had undergone somatic hypermutation, indicating that they expressed activation-induced cytidine deaminase (AID). Therefore, to identify early AID-expressing precursor cells, we infected an AID-regulated tamoxifen-inducible Cre-recombinase-EYFP reporter strain. Tamoxifen administration led to labeling of both the IgM memory cells and bone marrow ASCs on day 30 and later post-infection. High frequencies of labeled cells were identified on day 30 post-infection,following tamoxifen administration on day 10 post-infection. Both IgM memory cells and IgM bone marrow ASCs were labeled when tamoxifen was administered as early as day 4 post-infection. We also identified mechanisms involved in maintenance of the IgM bone marrow ASCs and IgM+ memory cells, namely proliferation and FcγRIIb respectively. BrdU studies revealed that the bone marrow IgM ASCs were maintained by proliferation, unlike the IgM memory cells. RNAseq analysis revealed a 2-fold higher expression of inhibitory Fc receptor, FcγRIIb. Because FcγRIIb inhibits B cell activation, we hypothesized that FcγRIIb negatively regulates IgM+ memory B cells by binding immune complexes present during low-level chronic infection. E. murisinfection of FcγRIIb-deficientmice revealed a 3-fold expansion of the IgM+ memory 30 days post-infection. We further demonstrated that the expansion of the IgM+ memory cells was not due to increased proliferation, but a decrease of apoptosis, due to a lack of Fas expression in FcγRIIb-deficient mice. This result was mimicked in AID-deficient mice, which lack the ability to class switch to IgG and make immune complexes, revealing a role for immune complexes in regulating IgM+ memory. Altogether, these studies demonstrate a novel germinal center-independent pathway for the generation of two distinct long-term IgM-positive B cell populations.
    • Genome-wide association study of response to methylphenidate in 187 children with attention-deficit/hyperactivity disorder

      Mick, Eric; Neale, Benjamin; Middleton, Frank A.; McGough, James J.; Faraone, Stephen V. (Wiley, 2008-12-05)
      We conducted a genome-wide association study of symptom response in an open-label study of a methylphenidate transdermal system (MTS). All DNA extraction and genotyping was conducted at SUNY Upstate Medical University using the Affymetrix Genome-Wide Human SNP Array 6.0. All quality control and association analyses were conducted using the software package PLINK. After data cleaning and quality control, there were 187 subjects (72% (N¼135) male) with mean age 9.2 2.0 years and 319,722 SNPs available for analysis. The most statistically significant association (rs9627183 andrs11134178;P¼3 10 6) fell short of the threshold for a genome-wide significant association. The most intriguing association amongsuggestivefindings(rs3792452;P¼2.6 10 5) was with the metabotropic glutamate receptor 7 gene (GRM7) as it is expressed in brain structures also previously associated with ADHD. Among the 102 available SNPs covering previously studied candidate genes, two SNPs within the norepinephrine transporter gene (NET, SLC6A2) were significant at P 1 10 2. These results should be considered preliminary until replicated in larger adequately powered, controlled samples but do suggest that noradrenergic and possibly glutaminergic genes may be involved with response to methylphenidate.
    • Genome-wide search for schizophrenia susceptibility loci: The NIMH genetics initiative and millennium consortium

      Cloninger, C. Robert; Kaufmann, Charles A.; Faraone, Stephen V.; Malaspina, Dolores; Svrakic, Dragan M.; Harkavy-Friedman, Jill; Suarez, Brian K.; Matise, Tara C.; Shore, David; Lee, Hang; et al. (Wiley, 1998-07-10)
      chizophrenia has a complex pattern of inheritance, indicative of interactions among multiple genes and environmental factors. The detection and replication of specific susceptibility loci for such complex disorders are facilitated by the availability of large samples of affected sib pairs and their nuclear families, along with standardized assessment and systematic ascertainment procedures. The NIMH Genetics Initiative on Schizophrenia, a multisite collaborative study, was established as a national resource with a centralized clinical data base and cell repository. The Millennium Schizophrenia Consortium has completed a genome-wide scan to detect susceptibility loci for schizophrenia in 244 individuals from the nuclear families of 92 independent pairs of schizophrenic sibs ascertained by the NIMH Genetics Initiative. The 459 marker loci used in the scan were spaced at 10-cM intervals on average. Individuals of African descent were higher than those of European descent in their average heterozygosity (79% vs. 76%, P < .0001) and number of alleles per marker (9.2 vs. 8.4, P < .0001). Also, the allele frequencies of 73% of the marker loci differed significantly (P < .01) between individuals of European and African ancestry. However, regardless of ethnic background, this sample was largely comprised of schizophrenics with more than a decade of psychosis associated with pervasive social and occupational impairment. Am. J. Med. Genet. (Neuropsychiatr. Genet.) 81:275–281, 1998. © 1998 Wiley-Liss, Inc.
    • GENOME-WIDESTUDIES OF AUTISM IDENTIFY ALTERED IMMUNOLOGIC AND NEURODEVELOPMENTAL PATHWAYS AND HIGHLIGHT PUTATIVE DIAGNOSTIC BIOMARKER SIGNALS

      Glatt, Stephen; Tylee, Daniel (2017)
      Autism is a complex neurodevelopmental syndrome that can be challenging to identify in young children. Family-based and genetic studies indicate that autism has a strong genetic component, though immunologic processes may also contribute to altered neurodevelopment. Over the past two decades, genome-wide investigations have provided critical insights into the genetic causes and molecular correlates of autism at the levels of both the individual and the population. Studies of DNA have identified highly penetrant genetic factors that appear to explain a sizable minority (20-40%) of autism-affected individuals. However, patho-developmental mechanisms are less-clearly understood for the remaining majority of individuals for whom no highly penetrant factors are identifiable(i.e., idiopathic autism). The present body of work contains three studies that used genome-wide assessment methods to predict the diagnosis of autism and to characterize its molecular correlates using samples that predominantly reflect idiopathic etiology. In Chapter 1, we demonstrate that large numbers of low-penetrance genetic factors(i.e., commonly varying single nucleotide polymorphisms; SNPs) can be harnessed with machine-learning methods to predict autism risk. Throughout this document, we provide a review and critical evaluation of DNA-and RNA-based autism biomarkers. In Chapters 2 and 3, we use microarray and RNA sequencing to identify consistent patterns of autism-related gene expression in peripheral blood samples. These patterns shed light on altered immunologic signaling and also implicate signaling pathways that are known to be involved in neurodevelopment and to influence autism-related clinical and neurobiological phenotypes. Importantly, our findings indicate that the molecular correlates of idiopathic autism may converge with mechanisms understood from high-penetrance genetic causes. Furthermore, our findings support the idea that immunologic mechanisms could contribute to perturbations of neurodevelopmental pathways. We integrate our findings in the context of existing literature, highlight current gaps in knowledge, and propose future experiments to address these questions.
    • Heterogeneity and the genetics of bipolar disorder

      Faraone, Stephen V.; Tsuang, Ming T. (Wiley, 2003-10-30)