Your search keyword '"LRP1B"' showing total 5 results

1. Analysis of copy number alterations in bladder cancer stem cells revealed a prognostic role of LRP1B

Author

Conconi, D, Jemma, A, Giambra, M, Redaelli, S, Croci, G, Dalprà, L, Lavitrano, M, Bentivegna, A, Conconi, Donatella, Jemma, Andrea, Giambra, Martina, Redaelli, Serena, Croci, Giorgio Alberto, Dalprà, Leda, Lavitrano, Marialuisa, Bentivegna, Angela, Conconi, D, Jemma, A, Giambra, M, Redaelli, S, Croci, G, Dalprà, L, Lavitrano, M, Bentivegna, A, Conconi, Donatella, Jemma, Andrea, Giambra, Martina, Redaelli, Serena, Croci, Giorgio Alberto, Dalprà, Leda, Lavitrano, Marialuisa, and Bentivegna, Angela

Abstract

Purpose: Bladder cancer is the most common malignancy of the urinary tract and one of the most prevalent cancers worldwide. It represents a spectrum of diseases, from recurrent non-invasive tumors (NMIBCs) managed chronically, to muscle infiltrating and advanced-stage disease (MIBC) that requires multimodal and invasive treatment. Multiple studies have underlined the complexity of bladder tumors genome, highlighting many specific genetic lesions and genome-wide occurrences of copy-number alterations (CNAs). In this study, we analyzed CNAs of selected genes in our cohorts of cancer stem cells (CSCs) and in The Cancer Genome Atlas (TCGA-BLCA) cohort with the aim to correlate their frequency with patients’ prognosis. Methods: CNAs have been verified on our array-CGH data previously reported on 19 bladder cancer biopsies (10 NMIBCs and 9 MIBCs) and 16 matched isolated CSC cultures. In addition, CNAs data have been consulted on the TCGA database, to search correlations with patients’ follow-up. Finally, mRNA expression levels of LRP1B in TGCA cohort were obtained from The Human Protein Atlas. Results: We firstly identified CNAs differentially represented between TGCA data and CSCs derived from NMIBCs and MIBCs, and we correlated the presence of these CNAs with patients’ follow-up. LRP1B loss was significantly increased in CSCs and linked to short-term poor prognosis, both at genomic and transcriptomic level, confirming its pivotal role in bladder cancer tumorigenesis. Conclusion: Our study allowed us to identify potential "predictive" prognostic CNAs for bladder cancer, implementing knowledge for the ultimate goal of personalized medicine.

Published

2022

2. Analysis of copy number alterations in bladder cancer stem cells revealed a prognostic role of LRP1B

Author

Conconi, D, Jemma, A, Giambra, M, Redaelli, S, Croci, G, Dalprà, L, Lavitrano, M, Bentivegna, A, Conconi, Donatella, Jemma, Andrea, Giambra, Martina, Redaelli, Serena, Croci, Giorgio Alberto, Dalprà, Leda, Lavitrano, Marialuisa, Bentivegna, Angela, Conconi, D, Jemma, A, Giambra, M, Redaelli, S, Croci, G, Dalprà, L, Lavitrano, M, Bentivegna, A, Conconi, Donatella, Jemma, Andrea, Giambra, Martina, Redaelli, Serena, Croci, Giorgio Alberto, Dalprà, Leda, Lavitrano, Marialuisa, and Bentivegna, Angela

Abstract

Purpose: Bladder cancer is the most common malignancy of the urinary tract and one of the most prevalent cancers worldwide. It represents a spectrum of diseases, from recurrent non-invasive tumors (NMIBCs) managed chronically, to muscle infiltrating and advanced-stage disease (MIBC) that requires multimodal and invasive treatment. Multiple studies have underlined the complexity of bladder tumors genome, highlighting many specific genetic lesions and genome-wide occurrences of copy-number alterations (CNAs). In this study, we analyzed CNAs of selected genes in our cohorts of cancer stem cells (CSCs) and in The Cancer Genome Atlas (TCGA-BLCA) cohort with the aim to correlate their frequency with patients’ prognosis. Methods: CNAs have been verified on our array-CGH data previously reported on 19 bladder cancer biopsies (10 NMIBCs and 9 MIBCs) and 16 matched isolated CSC cultures. In addition, CNAs data have been consulted on the TCGA database, to search correlations with patients’ follow-up. Finally, mRNA expression levels of LRP1B in TGCA cohort were obtained from The Human Protein Atlas. Results: We firstly identified CNAs differentially represented between TGCA data and CSCs derived from NMIBCs and MIBCs, and we correlated the presence of these CNAs with patients’ follow-up. LRP1B loss was significantly increased in CSCs and linked to short-term poor prognosis, both at genomic and transcriptomic level, confirming its pivotal role in bladder cancer tumorigenesis. Conclusion: Our study allowed us to identify potential "predictive" prognostic CNAs for bladder cancer, implementing knowledge for the ultimate goal of personalized medicine.

Published

2022

3. Slow endocytosis of the LDL receptor-related protein 1B: Implications for a novel cytoplasmic tail conformation

Author

Knisely, Jane M., Li, Yonghe, Griffith, Janice M., Geuze, Hans J., Schwartz, Alan L., Bu, Guojun, Knisely, Jane M., Li, Yonghe, Griffith, Janice M., Geuze, Hans J., Schwartz, Alan L., and Bu, Guojun

Abstract

The LDL receptor-related protein 1B (LRP1B) is a putative tumor suppressor homologous to LRP1. Both LRP1 and LRP1B contain cytoplasmic tails with several potential endocytosis motifs. Although the positions of these endocytic motifs are similar in both receptors, LRP1B is internalized at a 15-fold slower rate than LRP1. To determine whether the slow endocytosis of LRP1B is due to the utilization of an endocytosis motif other than the YATL motif used by LRP1, we tested minireceptors with mutations in each of the five potential motifs in the LRP1B tail. Only mutation of both NPXY motifs together abolished LRP1B endocytosis, suggesting that LRP1B can use either of these motifs for internalization. LRP1B contains a unique insertion of 33 amino acids not present in LRP1 that could lead to altered recognition of trafficking motifs. Surprisingly, deletion of this insertion had no effect on the endocytosis rate of LRP1B. However, replacing either half of the LRP1B tail with the corresponding LRP1 sequence markedly accelerated LRP1B endocytosis. From these data, we propose that both halves of the LRP1B cytoplasmic tail contribute to a unique global conformation, which results in less efficient recognition by endocytic adaptors and a slow endocytosis rate. © 2007 Elsevier Inc. All rights reserved.

Published

2007

4. Striking differences of LDL receptor-related protein 1B expression in mouse and human

Author

Li, Yonghe, Lu, Wenyan, Bu, Guojun, Li, Yonghe, Lu, Wenyan, and Bu, Guojun

Abstract

The low density lipoprotein (LDL) receptor-related protein 1B (LRP1B) is a member of the expanding LDL receptor family, and is closely related to LRP. It was discovered as a putative tumor suppressor, and is frequently inactivated in human malignant tissues. However, the expression pattern of LRP1B in normal human tissues was unclear. In the present study, we analyzed LRP1B expression in normal mouse and human tissues. By using RT-PCR, we found that, while mouse LRP1B expression is mostly restricted to the brain, human LRP1B expression is more widespread with highest expression levels detected in the brain, adrenal gland, salivary gland, and testis. Although mouse LRP1B expresses in the forms of both full-length receptor tail and an alternatively spliced form lacking a 33-amino acid insert, human LRP1B is expressed exclusively in the form of full-length receptor tail. Finally, we found that, unlike mouse LRP1B, human LRP1B is cleaved by furin. Taken together, these data demonstrate that there are striking differences between LRP1B expression in mouse and human tissues. The broader expression pattern of LRP1B in human tissues suggests that this putative tumor suppressor may play roles in several types of human cancer. © 2005 Elsevier Inc. All rights reserved.

Published

2005

5. LRP1B functions as a receptor for Pseudomonas exotoxin

Author

Pastrana, Diana V., Hanson, Alison J., Knisely, Jane, Bu, Guojun, FitzGerald, David J., Pastrana, Diana V., Hanson, Alison J., Knisely, Jane, Bu, Guojun, and FitzGerald, David J.

Abstract

Pseudomonas aeruginosa is an opportunistic pathogen that produces several virulence factors, among them Pseudomonas Exotoxin A (PE). Previously, low-density lipoprotein receptor-related protein 1 (LRP1) was shown to be the primary receptor for PE. In this report, we show that a close family member, LRP1B, can also function as a receptor.

Published

2005