Expression of lysyl hydroxylases and characterization of a novel disorder caused by mutations in the lysyl hydroxylase 3 gene

Salo, A. (Antti)

18 August 2009

Abstract Collagens and collagenous proteins undergo several post-translational modifications that are important for their structure and functions. Lysine hydroxylation produces hydroxylysines, which are important for collagen cross-link formation and provide attachment sites for galactose and glucosylgalactose. Glycosylated hydroxylysines are crucial for embryonic development and the assembly of certain collagen types. They may also facilitate interactions between collagen and adjacent molecules as well as control the diameter of collagen fibrils. Lysine hydroxylation is catalyzed by three lysyl hydroxylases (LH1, LH2 and LH3). In addition to lysyl hydroxylase activity, LH3 possesses collagen galactosyltransferase (GT) and glucosyltransferase (GGT) activities. In this study, polyclonal antibodies against the lysyl hydroxylase isoforms were produced for protein level studies to localize the expression and understand the functions of the different isoenzymes. The results indicated ubiquitous expression during embryonic development compared to the more restricted, cell and tissue specific expression patterns observed in adult mouse tissues. Differences were seen also in the alternative splicing of LH2 during embryogenesis and between tissue types. Analyses of the subcellular localization revealed that LH3 is also present in extracellular space. Tissue and cell specific differences were noted in the distribution of LH3 between cellular compartments. Substrate analysis suggested an additional and novel role for LH3 as an enzyme catalyzing lysine modifications of collagenous proteins in the extracellular space. The importance of LH1 and LH2 has been highlighted in Ehlers-Danlos type VI and Bruck syndromes, respectively. In this study, the lysyl hydroxylase 3 gene was linked to a heritable disorder for the first time. Urinary screening revealed a patient that lacked a glucosylgalactosyl derivative of a pyridinium cross-link. The GGT activity levels measured from the patient’s serum and lymphoblastoid cells were also reduced, which suggested a defect in the lysyl hydroxylase 3 gene. Genetic analyses revealed two mutations, one in each allele of LH3 in this compound heterozygous patient. Recombinant mutant proteins showed defects in lysyl hydroxylase and collagen glycosyltransferase activities, respectively. In conclusion, it was shown that a defect in LH3 catalyzed modifications leads to a novel disorder, which shares features with many other connective tissue disorders.

Collagen

Collagen Glucosyltransferase

Connective Tissue

Connective Tissue Diseases

Extracellular Matrix

Gene Expression

Glycosylation

Glycosyltransferases

Lysyl Hydroxylase

Mutation

PLOD3

Hypoxia-inducible factor prolyl 4-hydroxylases regulating erythropoiesis, and hypoxia-inducible lysyl oxidase regulating skeletal muscle development during embryogenesis

Laitala, A. (Anu)

02 December 2014

Abstract Erythropoiesis is the process of red blood cell production. The main regulator is the erythropoietin (EPO) hormone, which is strongly upregulated in low oxygen concentration (hypoxia) in cells via the hypoxia-inducible transcription factor HIF. The stability of HIF is regulated in an oxygen-dependent manner by three HIF prolyl 4-hydroxylases, all of which are known to participate in the regulation of erythropoiesis. A role in erythropoiesis of a fourth prolyl 4-hydroxylase, P4H-TM, which possesses a transmembrane domain, is not known, but it is able to hydroxylate HIF at least in vitro and in cellulo. The role of P4H-TM in erythropoiesis was studied by administering a HIF-P4H inhibitor, FG-4497, to P4h-tm null, Hif-p4h-3 null, and Hif-p4h-2 hypomorph mouse lines. The current study suggests that P4H-TM is involved in the regulation of EPO production, hepcidin expression and erythropoiesis. P4H-TM can thus be a new target for inhibition when designing novel pharmacological treatment strategies for anemia. LOX is required for crosslink formation between lysine residues in fibrillar collagens and elastin. These crosslinks enhance the tensile strength of collagen fibers and provide elasticity to elastic fibers and thus generate important structural support for tissues. LOX is required for normal embryonic development of the cardiovascular and pulmonary systems, and its depletion leads to a generalized elastinopathy and collagenolysis leading to perinatal death of Lox null mice. The development of muscles is a delicate process, which requires coordinated signaling and a homeostatic balance between the muscle and muscle connective tissue. Based on the drastic defects that were found in the present study in the skeletal muscle of Lox null mice, lack of LOX clearly disturbs this balance and increases transforming growth factor β (TGF-β) signaling, which leads to defects in the skeletal muscles. The impaired balance can cause muscle disorders, such as Duchenne Muscular Dystrophy (DMD). Despite the clinical significance, very little is known about the mechanisms controlling this homeostatic balance. The discovery of LOX as a regulating factor during skeletal muscle development will help to clarify the role of extracellular matrix (ECM) in muscle development and in muscle related congenital diseases. / Tiivistelmä Erytropoieesi on fysiologinen prosessi, jossa tuotetaan veren punasoluja ja jonka pääsäätelijänä toimii erytropoietiini (EPO) hormoni. EPO:n geeni ilmentyy voimakkaasti alhaisessa happipitoisuudessa (hypoksia) hypoksia-indusoituvan transkriptiotekijän (HIF) toimesta. HIF-tekijän stabiilisuutta säätelee kolme HIF-prolyyli-4-hydroksylaasientsyymiä (HIF-P4H) hapesta riippuvaisesti, ja niiden tiedetään siten osallistuvan myös erytropoieesin säätelyyn, HIF-P4H-2:n toimiessa pääsäätelijänä. Neljännen transmembraanisen prolyyli-4-hydroksylaasin (P4H-TM) roolia erytropoieesissa ei vielä tiedetä, mutta sen tiedetään säätelevän HIF-tekijää. Työssä käytettiin Hif-p4h-2, Hif-p4h-3 ja P4h-tm muuntogeenisiä hiirilinjoja, joiden entsymaattinen aktiivisuus on alentunut tai poistettu. P4H-TM:n osallisuutta erytropoieesin säätelyyn tutkittiin antamalla hiirilinjoille HIF-P4H-entsyymejä inhiboivaa lääkettä. Tutkimuksen tulokset osoittavat ensimmäistä kertaa P4H-TM:n säätelevän EPO-geenin ilmentymistä ja siten erytropoieesia. Ennestään tiedettyjen HIF-P4H entsyymien inhiboinnin lisäksi P4H-TM:n inhibointia voidaan pitää uutena kohteena uusien farmakologisten hoitokeinojen kehityksessä. Lysyylioksidaasi (LOX) katalysoi säikeisten kollageenien välisten sekä elastisten säikeiden välisten poikkisidosten muodostumista. Pokkisidokset antavat vetolujuutta kollageeneille ja joustavuutta elastisille säikeille ja ovat siten tärkeitä kudoksen rakenteelle. LOX:ia tarvitaan sikiön kehityksen aikana mm. hengitys-, sydän- ja verisuonielimistöjen kehityksessä. LOX:in puutos hiirillä aiheuttaa viallisia elastisia- ja kollageenisäikeitä, johtaen poikasten kuolemaan synnytyksen yhteydessä. Lihasten kehitys on tarkoin säädelty prosessi, jossa lihas ja lihaksen sidekudos säätelevät toisiansa. LOX:n suhteen poistogeenisissä Lox-/- sikiöissä löydettiin selviä ongelmia luurankolihasten kehityksessä. LOX:n puutoksen osoitettiin lisäävän transformoivan kasvutekijä beetan (TGF-β) määrää, joka estää luustolihaksia kehittymästä normaalisti. LOX kykenee sitoutumaan TGF-β:aan ja inhiboimaan sen aktiivisuutta ja LOX:n puuttuessa inhibointia ei tapahdu. Tutkimus osoittaa LOX:n olevan keskeinen tekijä lihaksen kehityksessä ja siten auttaa ymmärtämään sidekudoksen merkitystä luurankolihasten kehityksessä ja siihen liittyvissä sairauksissa.

erythropoiesis

hypoxia

hypoxia-inducible factor

lysyl oxidase

prolyl 4-hydroxylase

skeletal muscle

erythropoieesi

hypoksia

hypoksia indusoituva tekijä

luurankolihas

lysyylioksidaasi

prolyyli-4-hydroksylaasi

Rôle de la lysyl-ARNt synthétase mitochondriale humaine dans la réplication du VIH-1.

Kobbi, Lydia

07 November 2011

Le virus de l'immunodéficience humaine de type 1 (VIH-1), est un rétrovirus dont le génome est composé de deux molécules d'ARN simple brin. La transcriptase inverse codée par le VIH-1 utilise l'ARNt3Lys de la cellule hôte pour amorcer la réplication de son génome ARN en ADN proviral. L'ARNt3Lys est encapsidé dans les virions lors de l'assemblage; la lysyl-ARNt synthétase (LysRS) cellulaire est impliquée dans ce mécanisme et sert de co-transporteur à l'ARNt3Lys.Chez l'homme, il existe deux formes de LysRS, une forme cytoplasmique (cLysRS) et une forme mitochondriale (pmLysRS) qui donnera la forme mature (mLysRS) après translocation dans la mitochondrie. Les deux LysRS sont issues d'un même gène par épissage alternatif. Il a été démontré que seule la forme mitochondriale est présente dans les particules virales.Nous avons établi un modèle des interactions protéine-protéine impliquées dans la formation du complexe d'encapsidation de l'ARNt3Lys. En recherchant les interactions des précurseurs Gag et GagPol avec les LysRS et leurs domaines, nous avons démontré que seul le domaine Pol du précurseur GagPol a la capacité de s'associer à la LysRS. Ce sont les sous-domaines transframe TF et intégrase IN du domaine Pol qui permettent l'association entre LysRS et GagPol. Cette association se fait via le domaine catalytique de l'enzyme. La sélectivité de l'encapsidation de la forme mitochondriale de LysRS aux dépens de sa forme cytoplasmique pourrait résider dans la stricte compartimentation cellulaire de ces deux formes enzymatiques. Nous avons voulu établir à quel stade l'encapsidation de la LysRS mitochondriale a lieu, soit avant sa translocation mitochondriale sous forme de précurseur pmLysRS, soit après sous forme mLysRS maturée. Nous avons déterminé le site de maturation du précurseur pmLysRS puis caractérisé les deux formes mitochondriales de la LysRS, en déterminant leurs paramètres cinétiques et leur affinité pour l'ARNt3Lys. Alors que la forme pmLysRS ne forme pas de complexe stable avec l'ARNt, la forme maturée mLysRS est la plus apte à interagir avec l'ARNt3Lys. Ce serait donc la mLysRS qui serait impliquée dans le transport de l'ARNt3Lys dans les particules virales lors du bourgeonnement.Comme l'interaction GagPol:LysRS n'est pas spécifique in vitro de la forme mLysRS qui est la seule espèce de LysRS encapsidée, nous avons recherché si d'autres protéines virales pouvaient intervenir dans la formation du complexe d'encapsidation et conférer la spécificité pour la seule mLysRS. Nous avons montré que les protéines auxiliaires Rev et Vpr ont la capacité à s'associer à la LysRS sans distinction d'origine, mais ne peuvent interagir dans le contexte du complexe d'encapsidation GagPol:mLysRS:ARNt3Lys. Les différentes formes de LysRS pourraient ainsi réguler l'activité de Vpr et Rev à d'autres étapes du cycle viral.

Lysyl-ARNt synthétase

VIH-1

Encapsidation ARNt3 Lys

GagPol

Pathophysiology of Pelvic Organ Prolapse

Borazjani, Ali

29 May 2015

No description available.

Biomedical Engineering

Biomedical Research

Biomechanics

Gynecology

pelvic organ prolapse

connective tissue

pregnancy

parity

lysyl oxidase like 1

vagina

case-control studies

meta-analysis

gene expression

enzymology

elasticity

mechanics

elastin

collagen

bone morphogenetic protein 1

matrix metalloproteinases

Expressão de genes e de proteínas envolvidos na biossíntese da matriz extracelular no tecido vaginal de mulheres com e sem prolapso de órgãos pélvicos / Expression of genes and proteins related to the extracellular matrix biogenesis in vaginal tissue of women with and without pelvic organ prolapse

Bortolini, Maria Augusta Tezelli [UNIFESP]

25 May 2011

Made available in DSpace on 2015-07-22T20:50:12Z (GMT). No. of bitstreams: 0 Previous issue date: 2011-05-25. Added 1 bitstream(s) on 2015-08-11T03:26:12Z : No. of bitstreams: 1 Publico-12837a.pdf: 1258726 bytes, checksum: a7e0f280ec3b88f2f775c2b325704cd7 (MD5). Added 1 bitstream(s) on 2015-08-11T03:26:12Z : No. of bitstreams: 2 Publico-12837a.pdf: 1258726 bytes, checksum: a7e0f280ec3b88f2f775c2b325704cd7 (MD5) Publico-12837b.pdf: 2043061 bytes, checksum: 4edc37b57c73112ae7353868a78233ca (MD5). Added 1 bitstream(s) on 2015-08-11T03:26:12Z : No. of bitstreams: 3 Publico-12837a.pdf: 1258726 bytes, checksum: a7e0f280ec3b88f2f775c2b325704cd7 (MD5) Publico-12837b.pdf: 2043061 bytes, checksum: 4edc37b57c73112ae7353868a78233ca (MD5) Publico-12837c.pdf: 1773766 bytes, checksum: 56addbd5601cb4e7336afb640ed56fe8 (MD5) / Objetivo: O prolapso de órgãos pélvicos (POP) resulta da falha na sustentação do assoalho pélvico, e anormalidades do tecido conjuntivo podem estar envolvidas na etiologia e/ou na progressão da disfunção. Analisar-se-á a expressão diferencial de genes e de proteínas que participam da biossíntese do colágeno e da elastina: lisil oxidases (LOXs), fibulina-5, fibrilinas-1 e -2 e pró-colágeno C proteinase (PCP/BMP1), no tecido vaginal de mulheres sem e com POP acentuado consoante seu estado hormonal. Casuística e Métodos: Durante a histerectomia total, biópsias de parede vaginal anterior foram obtidas de mulheres caucasianas na pré-menopausa (fase proliferativa do ciclo menstrual) e na pós-menopausa com POP acentuado (POPQ estadio III e IV), e de controles assintomáticas (POPQ 0). RNAm e proteínas totais foram extraídos usando Trizol e RIPA Buffer, e os genes e proteínas de interesse quantificados por RT-PCR em tempo real e Imunobloting, respectivamente. As seguintes análises comparativas foram realizadas: (1) expressão dos genes e das proteínas da família LOX (LOX e LOXL1-4), fibulina-5 e fibrilinas- 1 e -2 em pacientes na pré-menopausa com e sem POP; (2) expressão do gene e da proteína PCP/BMP1 em pacientes na pré- e pós-menopausa com POP, e respectivos controles. Os testes de Wilcoxon signed-rank e Fisher foram usados para as análises estatísticas (p<0.05). Resultados: Obtivemos amostras de 15 pacientes e 11 controles na pré-menopausa para o estudo (1), e 39 pacientes na pré-menopausa (POP=23 e Controle=16) e 18 na pósmenopausa (POP=13 e Controle=5) para o estudo (2). A partir das análises, observamos (1) diminuição significativa na expressão dos genes LOX, LOXL1 e LOXL3, bem como nas proteínas LOX e LOXL3 no tecido vaginal de pacientes POP na pré-menopausa comparadas com mulheres assintomáticas (p<0.05); (2) hipoexpressão do gene PCP/BMP1 nos tecidos vaginais de mulheres com POP acentuado comparadas com controles, tanto na prémenopausa como na pós-menopausa (ambos p=0.01); redução significativa das isoformas 130kDa, 92,5kDa e 82,5kDa da PCP/BMP1 no tecido vaginal de pacientes na pósmenopausa (p=0.01), bem como hiperexpressão da isoforma 130kDa nas mulheres com POP acentuado na pré-menopausa (p=0.009), comparadas com as respectivas controles. Conclusão: As expressões das enzimas LOXs e pró-colágeno C proteinase estão alteradas no tecido vaginal de mulheres com POP, e são moduladas pelo estado hormonal. A alteração na regulação destas enzimas, envolvidas na biossíntese da matriz extracelular, pode contribuir para deficiente síntese do tecido conjuntivo e do suporte vaginal, e estar envolvida no desenvolvimento do POP. / Objective: Pelvic organ prolapse (POP) results from the failure of pelvic floor support, and connective tissue abnormalities may be involved in the etiology and/or progression of the dysfunction. We aimed to analyze the differential expression of genes and proteins related to the collagen and elastin biogenesis: lysyl oxidases (LOXs), fibulin-5, fibrillin -1 and -2, and procollagen C proteinase (PCP/BMP1) in vaginal tissue of women without and with advanced POP controlled by hormonal status. Materials and Methods: During total hysterectomy, anterior vaginal wall biopsies were obtained from Caucasian premenopausal women (proliferative phase of menstrual cycle) and postmenopausal women with severe POP (POPQ stage III and IV) and asymptomatic controls (POPQ 0). Total mRNA and protein were extracted using Trizol and RIPA buffer, and the genes and proteins of interest were quantified by real-time RT-PCR and Immunoblotting, respectively. The following analysis were performed: (1) expression of LOX family genes and proteins (LOX and LOXL1-4), fibulin-5, fibrillin-1 and -2 in premenopausal women with and without POP; (2) PCP/BMP1 gene and protein expression in vaginal tissue of pre- and postmenopausal POP women, and respective controls. Wilcoxon signed-rank and Fisher tests were used for statistical analysis (p<0.05). Results: Samples from 15 premenopausal patients and 11 controls were obtained for study (1); 39 premenopausal (POP=23 and Control=16) and 18 postmenopausal women samples (POP=13 and Control=5) for study (2). We observed: (1) significant decrease in expression of LOX, LOXL1 and LOXL3 genes, as well as LOX and LOXL3 proteins in vaginal tissue of premenopausal POP patients compared with asymptomatic women (p<0.05); (2) PCP/BMP1 gene downregulation in the vagina of women with severe POP compared with controls, in both premenopausal and postmenopausal phase (both p=0.01); significant reduction of 130 kDa, 92.5 kDa and 82.5 kDa PCP/BMP1 isoforms in vaginal tissue of postmenopausal patients (p=0.01), and 130 kDa isoform upregulation in premenopausal women with severe POP (p=0.009), compared with their respective controls. Conclusion: The expression of LOXs enzymes and PCP/BMP1 are altered in vaginal tissue of women with severe POP, and are modulated by hormonal status. Dysregulation of these enzymes involved in the extracellular matrix biogenesis may contribute to impaired tissue and vaginal support, and may be involved in POP development. / TEDE / BV UNIFESP: Teses e dissertações

Pró-colágeno C proteinase

Colágeno

Elastina

Lisil oxidase

Menopausa

Proteína morfogenética óssea tipo I

Vagina

Prolapso de órgão pélvico

Proteína-Lisina 6-Oxidase

Peptídeo Hidrolases

Bone morphogenetic protein type I

Collagen

Elastin

Lysyl oxidase

Menopause

Procollagen C proteinase

Vagina

Pelvic organ prolapse

Peptide Hydrolases

Protein-Lysine 6-Oxidase