Construction of a single-chain antibody against intermediate filaments

Rutherford, Sharon Ann

January 1994

No description available.

Cytoplasmic filaments.

Monoclonal antibodies.

Intermediate filament proteins.

Eukaryotic cells.

Assembly Dynamics of Intermediate Filaments

Colakoglu, Gulsen

10 September 2009

No description available.

Cellular Biology

Molecular Biology

intermediate filament

neurofilament

vimentin

assembly

dynamics

Isolation and characterization of adult neural stem cells /

Johansson, Clas B.,

January 2002

Diss. (sammanfattning) Stockholm : Karol. inst., 2002. / Härtill 5 uppsatser.

A study of the cell adhesion molecules, E-cadherin and C-CAM, and the intermediate filament, nestin, in craniofacial and tooth development /

Terling, Catharina,

January 1900

Diss. (sammanfattning) Stockholm : Karol. inst. / Härtill 5 uppsatser.

Proprotein convertases in terminal differentiation of epidermis and processing of the profilaggrin amino terminus /

Pearton, David Jonathan,

January 2000

Thesis (Ph. D.)--University of Washington, 2000. / Vita. Includes bibliographical references (leaves 121-136).

Oral cancer with special reference to virus detection and quantitative gene expression

Shojaeian Jalouli, Miranda

January 2016

Background. Head and neck cancers (HNC) are among the most common malignancies worldwide, and about 90–92% of oral neoplasias are oral squamous cell carcinomas (OSCC). Alcohol and tobacco consumption have been recognized as the main risk factors for OSCC development. Oncogenic viruses, such as human papillomavirus (HPV) or Epstein-Barr virus (EBV), as well as genetic alterations may also contribute to tumour formation.  Aims. To study the prevalence of HPV, EBV, Herpes simplex type-1 (HSV-1), and HPV-16 and their integration status as well as the molecular mechanisms that can serve as a basis for the development of OSCC. Results. In Paper I we reported a statistically significant increase in the prevalence of HPV-16 in oral epithelial dysplasia (OED) and OSCC samples compared to controls. A statistically significant increase was also seen in integrated HPV-16 compared to episomal viral forms when comparing OED and OSCC samples. Paper II reported the detection of HSV-1 in 54% of healthy samples, in 36% of oral leukoplakia samples, and 52% of OSCC samples. However, these differences were not statistically significant. In Paper III we reported a statistically significant increase in the detection of HPV-positive samples when comparing nested polymerase chain reaction (PCR) with single-PCR results in OSCC and fresh oral mucosa. Paper IV reported that the highest prevalence of HPV (65%) was seen in Sudan, while an HSV-1 prevalence of 55% and an EBV prevalence of 80% were seen in the UK. Finally, Paper V reported that the mRNA levels of Bcl-2, keratin 1, keratin 13, and p53 were significantly lower and that the level of survivin was significantly higher in the OSCC samples of the toombak users than in their paired control samples. Significant downregulation in keratin 1 and keratin 13 expression levels was found in the OSCC samples of the non-toombak users relative to their normal control samples. Conclusion. HPV-16 integration was increased in oral epithelial dysplasia and OSCC compared to normal oral mucosa. Nested PCR is a more accurate method of establishing HPV prevalence in samples containing low copy numbers of HPV DNA. HPV and EBV may be a risk factor in OSCC development. Our findings confirmed the role of survivin in OSCC carcinogenesis and survivin might be interesting as a biomarker to be monitored. The results presented here provide both clinical and biological insights that will bring us closer to the goal of managing this disease and improving treatment and outcomes for future patients.

HPV

EBV

HSV-1

Oral Squamous Cell Carcinoma

Leukoplakia

apopto-sis

cell cycle regulation

intermediate filament proteins.

Intermediate filaments ensure resiliency of single carcinoma cells, while active contractility of the actin cortex determines their invasive potential

Ficorella, Carlotta, Eichholz, Hannah Marie, Sala, Federico, Vázquez, Rebeca Martínez, Osellame, Roberto, Käs, Josef A.

02 May 2023

During the epithelial-to-mesenchymal transition, the intracellular cytoskeleton undergoes severe reorganization which allows epithelial cells to transition into a motile mesenchymal phenotype. Among the different cytoskeletal elements, the intermediate filaments keratin (in epithelial cells) and vimentin (in mesenchymal cells) have been demonstrated to be useful and reliable histological markers. In this study, we assess the potential invasiveness of six human breast carcinoma cell lines and two mouse fibroblasts cells lines through single cell migration assays in confinement. We find that the keratin and vimentin networks behave mechanically the same when cells crawl through narrow channels and that vimentin protein expression does not strongly correlate to single cells invasiveness. Instead, we find that what determines successful migration through confining spaces is the ability of cells to mechanically switch from a substrate-dependent stress fibers based contractility to a substrate-independent cortical contractility, which is not linked to their tumor phenotype.

info:eu-repo/classification/ddc/530

ddc:530

Identification of genetic markers associated with wool quality traits in merino sheep

Itenge-Mweza, Theopoline Omagano

January 2007

A candidate gene approach was used to identify potential genetic markers associated with wool quality traits including mean fibre diameter (MFD), fibre diameter standard deviation (FDSD), coefficient of variation of fibre diameter (CVD), prickle factor, curvature, yellowness, brightness, staple strength, staple length, yield, greasy fleece weight (GFW) and clean fleece weight (CFW). Inheritance of potential genetic markers was studied in two half-sib Merino families and assessed for association with the wool quality traits. The sire for one of the half-sib families is referred to as MV144-58-00, and wool measurements from its progeny were taken at 12 (n = 131), 24 (n =128) and 36 (n = 37) months of age. The sire for the second half-sib family is referred to as Stoneyhurst, and wool measurements from its progeny (n = 35) were taken at 12 months of age. Genes that code for the keratin intermediate-filament proteins (KRTs) (KRT1.2, KRT2.10) and the keratin intermediate-filament-associated proteins (KAPs) (KAPl.1, KAPl.3, KAP3.2, KAP6.1, KAP 7, KAP8) were targeted for this investigation, along with the beta 3-adrenergic receptor (ADRB3) gene and microsatellites BfMS and OarFCB193. Polymerase chain reaction (PCR) was used to amplify specific DNA fragments from each locus and PCR- single strand conformational polymorphism (PCR-SSCP) analysis was used to detect polymorphism within the half-sib families for all the loci, except for the KAP1.1 gene, where length polymorphism was detected using agarose gel electrophoresis. Only the loci that were heterozygous for the sire (KAP1.1, KAP1.3, KRT1.2, ADRB3, KAP8) and hence were informative, were genotyped in the progeny. The total number of alleles observed at the KAP1.1, KAP1.3, KRT1.2, KAP8 and the ADRB3 loci were four, ten, six, five and six, respectively. Analysis of each of the informative loci revealed allelic associations with various wool traits. In the MV144-58-00 (genotypes KAP1.1 AB; KAP1.3 BD; KRT1.2 AB; ADRB3 CE) half-sib, inheritance of the KAP1.1 A allele was associated with a higher yield at 24 months of age (P = 0.037). This trend also observed at 36 months of age (P = 0.078). At 12 months of age, the KAP1.1 A allele tended to be associated with increased staple length (P = 0.08). At 36 months of age, the inheritance of the KAP1.1 B allele tended towards being associated with whiter wool (P = 0.080). The MV144-58-00 KAP1.3 D allele tended to be associated with increased yield at 24 and 36 months of age (P = 0.091 and 0.059, respectively), and with lower FDSD at 12 months of age (P = 0.055). The sire KAP1.3 B allele was associated with whiter wool colour at 36 months of age (P = 0.045). The inheritance of the MV144-58-00 KR T1.2 B allele was associated with or tended to be associated with a smaller FDSD (P = 0.040), an increase in staple strength (P = 0.025) and an increase in GFW (P = 0.069) at 12 months of age. At 24 months of age, the KR T1.2 B allele tended to be associated with increased yield (P = 0.057). At 36 months of age, the KRTl.2 A allele was associated with whiter wool (P = 0.019) and tended to be associated with increased crimp within the wool fibre (P = 0.089). In the Stoneyhurst (genotypes KAP1.1 BC; KAP1.3 CJ; KRT1.2 DE; ADRB3 CE) half-sib, inheritance of the KAP1.1 B allele was associated with longer staple length (P = 0.018) and a decrease in wool brightness (P = 0.039). In contrast, KAP1.1 C allele was associated with lowest staple length (P = 0.018) and brighter wool colour (P = 0.039). Associations observed with the inheritance of Stoneyhurst KAP 1.1 alleles were similar to the inheritance ofKAPl.3 alleles. Stoneyhurst KAP1.3 J allele was associated with longer staple length (P = 0.017) and a decrease in wool brightness (P = 0.010). In contrast, KAP1.3 C allele was associated with lowest staple length (P = 0.017) and brighter wool colour (P = 0.010). The Stoneyhurst KRT12 D allele was associated with longer staple length and a decrease in wool brightness (P = 0.033). In contrast, KRT1.2 E allele was associated with lowest staple length (P = 0.033) and brighter wool colour (P = 0.022). Sire alleles at the ADRB3 gene locus were associated with variation in staple strength (P = 0.025) for MV144-58-00's progeny, and with variation in yield (P = 0.023) for Stoneyhurst's progeny. The results obtained in this thesis are consistent with KAP1.1, KAP1.3 and KRT1.2 being clustered on one chromosome because both sires in this study passed on two major KAP1.1-KAP1.3-KRT1.2 haplotypes to their progeny, and the associations with wool traits were very similar for all the three loci. The major sire derived KAP1.1 – KAP1.3 - KRT1.2 haplotypes observed within the MV144-58-00 half-sib were: BBA (frequency of 43.4%; n = 43) and ADB (frequency of 44.4%; n = 44). Other minor haplotypes observed were: ADA (frequency of 4.0%; n = 4); BDA (frequency of 2.0%; n = 2); BBB (frequency of 3.0%; n = 3) and BDB (frequency of 3.0%; n = 3). In the Stoneyhurst half-sib, major sire-derived KAP 1.1 - KAP 1.3 - KR Tl.2 haplotypes observed were CCE (frequency of 53.1 %; n = 17) and BJD (frequency of 40.6%; n = 13). The minor haplotype BJE (frequency of 6.3%; n = 2) was also observed. Statistical analyses within the MVI44-58-00 half-sib showed that KAP1.1 AKAP1.3 D - KRT1.2 B haplotype was associated with increased yield (P = 0.023) and tended towards whiter wool colour (P = 0.059), smaller FDSD (P = 0.081) and stronger staple strength (P = 0.092). In the Stoneyhurst half-sib, the KAP1.1 B - KAP1.3 J - KRT1.2 D haplotype was associated with longer staple length (P = 0.010), while the KAP1.1 C - KAP1.3 C - KRT1.2 E haplotype showed a strong trend with increased wool brightness (P = 0.096). Result from this study indicated that the keratin genes on chromosome 11 are recombining relatively frequently at recombination "hotspots". A high rate of recombination among loci that impact on wool traits would make breeding for consistent wool quality very difficult. The results presented in this thesis suggest that genes coding for the KRTs and KAPs have the potential to impact on wool quality. KAP1.1, KAP1.3 and KRT1.2 could potentially be exploited in gene marker-assisted selection programmes within the wool industry to select for animals with increased staple length, 'increased staple strength, higher yield and brighter wool. This study was however limited to two half-sib families, and further investigation is required.

wool

traits

keratin

genetic marker

half-sib

PCR

SSCP

polymorphism

sheep

keratin-associated protein (KAP)

haplotype

recombination

hotspot

0604 - Genetics

Genomic clues to secondary injury mechanisms in brain trauma /

Gertten, Christina von,

January 2006

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2006. / Härtill 4 uppsatser.

Identification of altered Ras signaling and intermediate filament hyperphosphorylation in giant axonal neuropathy

Martin, Kyle B.

January 2015

Indiana University-Purdue University Indianapolis (IUPUI) / Giant axonal neuropathy (GAN) is a rare genetic disease that causes progressive damage to the nervous system. Neurons in GAN patients develop an abnormal organization of cytoskeletal proteins called intermediate filaments (IFs), which normally provide strength and support for the overall cell structure. The irregular IF structure in GAN patient neurons leads to a progressive loss of motor skills in children and subsequent death in adolescence. GAN is caused by reduced levels of the gigaxonin (Giga) protein. Giga functions to control the degradation of other cellular proteins, and the loss of Giga in GAN cells results in significantly elevated levels of the galectin-1 (Gal-1) protein. Gal-1 stabilizes the active form of the Ras signaling protein, which functions as a molecular switch to regulate the phosphorylation and subsequent organization of IFs. The connection between these pathways led us to propose that Giga regulates IF phosphorylation and structure by modulating Ras signaling through the degradation of Gal-1. Using GAN patient cells, we demonstrated that restoring Giga reduced Gal-1 protein levels, decreased IF phosphorylation, and reestablished normal IF organization. Similar effects of reduced IF phosphorylation and improved IF structure were also obtained in GAN cells by directly decreasing the protein levels of either Gal-1, or downstream Ras signaling proteins. Taken together, these results demonstrate that the loss of Giga induces Gal-1 mediated activation of Ras signaling, thereby leading to the increased IF phosphorylation and abnormal IF structure observed in GAN cells. Identification of aberrant Ras signaling is significant because it is the first to specify a mechanism by which the loss of Giga leads to the development of GAN and provides targets for novel drug therapies for the treatment of this currently immedicable genetic disease.

Giant axonal neuropathy

Gigaxonin

Galectin-1

Intermediate filaments

Phosphorylation

Nerves, Peripheral -- Diseases

Neuropathy

Cykoskeletal proteins

Intermediate filament proteins

Cytoplasmic filaments

Proteins -- Metabolism -- Disorders

Proteins -- Pathophysiology

Proteins -- Synthesis