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Kim MJ, Kim S, Reinheckel T, Krainc D. Inhibition of cysteine protease cathepsin L increases the level and activity of lysosomal glucocerebrosidase. JCI Insight 2024; 9:e169594. [PMID: 38329128 PMCID: PMC10967467 DOI: 10.1172/jci.insight.169594] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 10/25/2023] [Accepted: 12/13/2023] [Indexed: 02/09/2024] Open
Abstract
The glucocerebrosidase (GCase) encoded by the GBA1 gene hydrolyzes glucosylceramide (GluCer) to ceramide and glucose in lysosomes. Homozygous or compound heterozygous GBA1 mutations cause the lysosomal storage disease Gaucher disease (GD) due to severe loss of GCase activity. Loss-of-function variants in the GBA1 gene are also the most common genetic risk factor for Parkinson's disease (PD) and dementia with Lewy bodies (DLB). Restoring lysosomal GCase activity represents an important therapeutic approach for GBA1-associated diseases. We hypothesized that increasing the stability of lysosomal GCase protein could correct deficient GCase activity in these conditions. However, it remains unknown how GCase stability is regulated in the lysosome. We found that cathepsin L, a lysosomal cysteine protease, cleaves GCase and regulates its stability. In support of these data, GCase protein was elevated in the brain of cathepsin L-KO mice. Chemical inhibition of cathepsin L increased both GCase levels and activity in fibroblasts from patients with GD. Importantly, inhibition of cathepsin L in dopaminergic neurons from a patient GBA1-PD led to increased GCase levels and activity as well as reduced phosphorylated α-synuclein. These results suggest that targeting cathepsin L-mediated GCase degradation represents a potential therapeutic strategy for GCase deficiency in PD and related disorders that exhibit decreased GCase activity.
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Affiliation(s)
- Myung Jong Kim
- Department of Neurology, Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA
| | - Soojin Kim
- Department of Neurology, Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA
| | - Thomas Reinheckel
- Institute of Molecular Medicine and Cell Research, Medical Faculty and BIOSS Centre for Biological Signaling Studies, Albert-Ludwigs-University Freiburg, Freiburg, Germany
| | - Dimitri Krainc
- Department of Neurology, Northwestern University Feinberg School of Medicine, Chicago, Illinois, USA
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Bellocchio L, Dipalma G, Inchingolo AM, Inchingolo AD, Ferrante L, Del Vecchio G, Malcangi G, Palermo A, Qendro A, Inchingolo F. COVID-19 on Oral Health: A New Bilateral Connection for the Pandemic. Biomedicines 2023; 12:60. [PMID: 38255167 PMCID: PMC10813615 DOI: 10.3390/biomedicines12010060] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/27/2023] [Revised: 12/14/2023] [Accepted: 12/23/2023] [Indexed: 01/24/2024] Open
Abstract
Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection and transmission are generally known to be produced by respiratory droplets and aerosols from the oral cavity (O.C.) of infected subjects, as stated by the World Health Organization. Saliva also retains the viral particles and aids in the spread of COVID-19. Angiotensin-converting enzyme Type 2 (ACE2) and transmembrane serine protease 2 (TMPRSS2) are two of the numerous factors that promote SARS-CoV-2 infection, expressed by O.C. structures, various mucosa types, and the epithelia of salivary glands. A systemic SARS-CoV-2 infection might result from viral replication in O.C. cells. On the other hand, cellular damage of different subtypes in the O.C. might be associated with various clinical signs and symptoms. Factors interfering with SARS-CoV-2 infection potential might represent fertile ground for possible local pharmacotherapeutic interventions, which may confine SARS-CoV-2 virus entry and transmission in the O.C., finally representing a way to reduce COVID-19 incidence and severity.
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Affiliation(s)
- Luigi Bellocchio
- INSERM, U1215 NeuroCentre Magendie, Endocannabinoids and Neuroadaptation, University of Bordeaux, 33063 Bordeaux, France;
| | - Gianna Dipalma
- Department of Interdisciplinary Medicine, University of Study “Aldo Moro”, 70124 Bari, Italy; (A.M.I.); (A.D.I.); (L.F.); (G.D.V.); (F.I.)
| | - Angelo Michele Inchingolo
- Department of Interdisciplinary Medicine, University of Study “Aldo Moro”, 70124 Bari, Italy; (A.M.I.); (A.D.I.); (L.F.); (G.D.V.); (F.I.)
| | - Alessio Danilo Inchingolo
- Department of Interdisciplinary Medicine, University of Study “Aldo Moro”, 70124 Bari, Italy; (A.M.I.); (A.D.I.); (L.F.); (G.D.V.); (F.I.)
| | - Laura Ferrante
- Department of Interdisciplinary Medicine, University of Study “Aldo Moro”, 70124 Bari, Italy; (A.M.I.); (A.D.I.); (L.F.); (G.D.V.); (F.I.)
| | - Gaetano Del Vecchio
- Department of Interdisciplinary Medicine, University of Study “Aldo Moro”, 70124 Bari, Italy; (A.M.I.); (A.D.I.); (L.F.); (G.D.V.); (F.I.)
| | - Giuseppina Malcangi
- Department of Interdisciplinary Medicine, University of Study “Aldo Moro”, 70124 Bari, Italy; (A.M.I.); (A.D.I.); (L.F.); (G.D.V.); (F.I.)
| | - Andrea Palermo
- College of Medicine and Dentistry, Birmingham B4 6BN, UK;
| | - Andis Qendro
- Faculty of Dental Medicine, University of Medicine, 1005 Tirana, Albania;
| | - Francesco Inchingolo
- Department of Interdisciplinary Medicine, University of Study “Aldo Moro”, 70124 Bari, Italy; (A.M.I.); (A.D.I.); (L.F.); (G.D.V.); (F.I.)
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Zhang L, Zhao Y, Yang J, Zhu Y, Li T, Liu X, Zhang P, Cheng J, Sun S, Wei C, Fu J. CTSL, a prognostic marker of breast cancer, that promotes proliferation, migration, and invasion in cells in triple-negative breast cancer. Front Oncol 2023; 13:1158087. [PMID: 37456247 PMCID: PMC10342200 DOI: 10.3389/fonc.2023.1158087] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/03/2023] [Accepted: 06/14/2023] [Indexed: 07/18/2023] Open
Abstract
Introduction In the world, the incidence of breast cancer has surpassed that of lung cancer, and it has become the first malignant tumor among women. Triple-negative breast cancer (TNBC) shows an extremely heterogeneous malignancy toward high recurrence, metastasis, and mortality, but there is a lack of effective targeted therapy. It is urgent to develop novel molecular targets in the occurrence and therapeutics for TNBC, and novel therapeutic strategies to block the recurrence and metastasis of TNBC. Methods In this study, CTSL (cathepsin L) expression in tissues and adjacent tissues of TNBC patients was monitored by immunohistochemistry and western blots. The correlations between CTSL expressions and clinicopathological characteristics in the patient tissues for TNBC were analyzed. Cell proliferation, migration, and invasion assay were also performed when over-expressed or knocked-down CTSL. Results We found that the level of CTSL in TNBC is significantly higher than that in the matched adjacent tissues, and associated with differentiated degree, TNM Stage, tumor size, and lymph node metastatic status in TNBC patients. The high level of CTSL was correlated with a short RFS (p<0.001), OS (p<0.001), DMFS (p<0.001), PPS (p= 0.0025) in breast cancer from online databases; while in breast cancer with lymph node-positive, high level of CTSL was correlated with a short DMFS (p<0.001) and RFS (p<0.001). Moreover, in vitro experiments showed that CTSL overexpression promotes the abilities for proliferation, migration, and invasion in MCF-7 and MDA-MB-231 cell lines, while knocking-down CTSL decreases its characteristics in MDA-MB-231 cell lines. Conclusion CTSL might involve into the regulation of the proliferation, invasion, and metastasis of TNBC. Thus, CTSL would be a novel, potential therapeutic, and prognostic target of TNBC.
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Affiliation(s)
- Lianmei Zhang
- Department of Pathology, The Affiliated Huai’an No. 1 People’s Hospital of Nanjing Medical University, Huai’an, Jiangsu, China
- Key Laboratory of Epigenetics and Oncology, The Research Center for Preclinical Medicine, Southwest Medical University, Luzhou, Sichuan, China
- Department of Pathology, Taizhou People's Hospital of Nanjing University of Chinese Medicine, Jiangsu, China
| | - Yang Zhao
- Department of Pathology, The Affiliated Huai’an No. 1 People’s Hospital of Nanjing Medical University, Huai’an, Jiangsu, China
| | - Jing Yang
- Key Laboratory of Epigenetics and Oncology, The Research Center for Preclinical Medicine, Southwest Medical University, Luzhou, Sichuan, China
- Department of Chemistry and Chemical Engineering, Hunan Institute of Science and Technology, Yueyang, Hunan, China
| | - Yaning Zhu
- Department of Pathology, The Affiliated Huai’an No. 1 People’s Hospital of Nanjing Medical University, Huai’an, Jiangsu, China
| | - Ting Li
- Key Laboratory of Epigenetics and Oncology, The Research Center for Preclinical Medicine, Southwest Medical University, Luzhou, Sichuan, China
| | - Xiaoyan Liu
- Key Laboratory of Epigenetics and Oncology, The Research Center for Preclinical Medicine, Southwest Medical University, Luzhou, Sichuan, China
| | - Pengfei Zhang
- NHC Key Laboratory of Cancer Proteomics, Department of Oncology, Xiangya Hospital, Central South University, Changsha, Hunan, China
| | - Jingliang Cheng
- Key Laboratory of Epigenetics and Oncology, The Research Center for Preclinical Medicine, Southwest Medical University, Luzhou, Sichuan, China
| | - Suan Sun
- Department of Pathology, The Affiliated Huai’an No. 1 People’s Hospital of Nanjing Medical University, Huai’an, Jiangsu, China
| | - Chunli Wei
- Key Laboratory of Epigenetics and Oncology, The Research Center for Preclinical Medicine, Southwest Medical University, Luzhou, Sichuan, China
| | - Junjiang Fu
- Key Laboratory of Epigenetics and Oncology, The Research Center for Preclinical Medicine, Southwest Medical University, Luzhou, Sichuan, China
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Du X, Ding L, Huang S, Li F, Yan Y, Tang R, Ding X, Zhu Z, Wang W. Cathepsin L promotes chemresistance to neuroblastoma by modulating serglycin. Front Pharmacol 2022; 13:920022. [PMID: 36133820 PMCID: PMC9484481 DOI: 10.3389/fphar.2022.920022] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Grants] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 04/14/2022] [Accepted: 07/21/2022] [Indexed: 11/26/2022] Open
Abstract
Cathepsin L (CTSL), a lysosomal acid cysteine protease, is found to play a critical role in chemosencitivity and tumor progression. However, the potential roles and molecular mechanisms of CTSL in chemoresistance in neuroblastoma (NB) are still unclear. In this study, the correlation between clinical characteristics, survival and CTSL expression were assessed in Versteeg dataset. The chemoresistant to cisplatin or doxorubicin was detected using CCK-8 assay. Western blot was employed to detect the expression of CTSL, multi-drug resistance proteins, autophagy-related proteins and apoptosis-related proteins in NB cells while knocking down CTSL. Lysosome staining was analyzed to access the expression levels of lysosomes in NB cells. The expression of apoptosis markers was analyzed with immunofluorescence. Various datasets were analyzed to find the potential protein related to CTSL. In addition, a subcutaneous tumor xenografts model in M-NSG mice was used to assess tumor response to CTSL inhibition in vivo. Based on the validation dataset (Versteeg), we confirmed that CTSL served as a prognostic marker for poor clinical outcome in NB patients. We further found that the expression level of CTSL was higher in SK-N-BE (2) cells than in IMR-32 cells. Knocking down CTSL reversed the chemoresistance in SK-N-BE (2) cells. Furthermore, combination of CTSL inhibition and chemotherapy potently blocked tumor growth in vivo. Mechanistically, CTSL promoted chemoresistance in NB cells by up-regulating multi-drug resistance protein ABCB1 and ABCG2, inhibiting the autophagy level and cell apoptpsis. Furthermore, we observed six datasets and found that Serglycin (SRGN) expression was positively associated with CTSL expresssion. CTSL could mediate chemoresistance by up-regulating SRGN expression in NB cells and SRGN expression was positively correlated with poor prognosis of NB patients. Taken together, our findings indicate that the CTSL promotes chemoresistance to cisplatin and doxorubicin by up-regulating the expression of multi-drug resistance proteins and inhibiting the autophagy level and cell apoptosis in NB cells. Thus, CTSL may be a therapeutic target for overcoming chemoresistant to cisplatin and doxorubicin in NB patients.
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Affiliation(s)
- Xiaohuan Du
- Department of Pharmacy, Children’s Hospital of Soochow University, Suzhou, China
| | - Leyun Ding
- Department of Pharmacy, The Affiliated Suzhou Hospital of Nanjing Medical University, Suzhou, China
| | - Shungen Huang
- Department of Oncology, Children’s Hospital of Soochow University, Suzhou, China
| | - Fang Li
- Department of Pharmacy, Children’s Hospital of Soochow University, Suzhou, China
| | - Yinghui Yan
- Department of Pharmacy, Children’s Hospital of Soochow University, Suzhou, China
| | - Ruze Tang
- Department of Oncology, Children’s Hospital of Soochow University, Suzhou, China
| | - Xinyuan Ding
- Department of Pharmacy, The Affiliated Suzhou Hospital of Nanjing Medical University, Suzhou, China
- *Correspondence: Wenjuan Wang, ; Xinyuan Ding, ; Zengyan Zhu,
| | - Zengyan Zhu
- Department of Pharmacy, Children’s Hospital of Soochow University, Suzhou, China
- *Correspondence: Wenjuan Wang, ; Xinyuan Ding, ; Zengyan Zhu,
| | - Wenjuan Wang
- Department of Pharmacy, Children’s Hospital of Soochow University, Suzhou, China
- *Correspondence: Wenjuan Wang, ; Xinyuan Ding, ; Zengyan Zhu,
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Zhang C, Yang H, Pan L, Zhao G, Zhang R, Zhang T, Xiao Z, Tong Y, Zhang Y, Hu R, Pandol SJ, Han YP. Hepatitis B Virus X Protein (HBx) Suppresses Transcription Factor EB (TFEB) Resulting in Stabilization of Integrin Beta 1 (ITGB1) in Hepatocellular Carcinoma Cells. Cancers (Basel) 2021; 13:1181. [PMID: 33803301 PMCID: PMC7967237 DOI: 10.3390/cancers13051181] [Citation(s) in RCA: 9] [Impact Index Per Article: 3.0] [Reference Citation Analysis] [Abstract] [Key Words] [Grants] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/01/2021] [Revised: 03/01/2021] [Accepted: 03/05/2021] [Indexed: 02/05/2023] Open
Abstract
Hepatitis B virus (HBV) infection is a major etiological risk for the incidence of hepatocellular carcinoma (HCC), and HBV X protein (HBx) is essential for oncogenic transformation. It is not known that if HBx can sabotage the lysosomal system for transformation and tumorigenesis, or its mechanism if it does have an effect. Examining clinical data, we observed that the downregulation of lysosomal components and transcription factor EB (TFEB) was associated with a poor prognosis of HCC patients. In HCC cells, we found that expression of HBx suppressed TFEB, impaired biogenesis of autophagic-lysosome, and promoted cellular dissemination. HBx mediated downregulation of TFEB led to impairment of autophagic/lysosomal biogenesis and flux, and consequently, accumulation of integrin beta 1 (ITGB1) for motility of HCC cells. Conversely, TFEB, in a steady-state condition, through induction of lysosomal biogenesis restrained ITGB1 levels and limited mobility of HCC cells. Specifically, overexpression of TFEB upregulated and activated the cysteine proteases including cathepsin L (CTSL) to degrade ITGB1. Conversely, expression of cystatin A (CSTA) or cystatin B (CSTB), the cellular inhibitors of lysosomal cysteine proteinases, spared ITGB1 from degradation and promoted dissemination of HCC cells. Taken together, this study suggests a potential mechanism for HBV-mediated malignancy, showing that HBx mediated downregulation of TFEB leads to accumulation of ITGB1 for HCC cell migration.
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Affiliation(s)
- Chunyan Zhang
- The Center for Growth, Metabolism and Aging, College of Life Sciences, Sichuan University, Chengdu 610065, China; (C.Z.); (H.Y.); (L.P.); (G.Z.); (R.Z.); (T.Z.); (Z.X.); (Y.T.)
| | - Huan Yang
- The Center for Growth, Metabolism and Aging, College of Life Sciences, Sichuan University, Chengdu 610065, China; (C.Z.); (H.Y.); (L.P.); (G.Z.); (R.Z.); (T.Z.); (Z.X.); (Y.T.)
| | - Liwei Pan
- The Center for Growth, Metabolism and Aging, College of Life Sciences, Sichuan University, Chengdu 610065, China; (C.Z.); (H.Y.); (L.P.); (G.Z.); (R.Z.); (T.Z.); (Z.X.); (Y.T.)
| | - Guangfu Zhao
- The Center for Growth, Metabolism and Aging, College of Life Sciences, Sichuan University, Chengdu 610065, China; (C.Z.); (H.Y.); (L.P.); (G.Z.); (R.Z.); (T.Z.); (Z.X.); (Y.T.)
| | - Ruofei Zhang
- The Center for Growth, Metabolism and Aging, College of Life Sciences, Sichuan University, Chengdu 610065, China; (C.Z.); (H.Y.); (L.P.); (G.Z.); (R.Z.); (T.Z.); (Z.X.); (Y.T.)
| | - Tianci Zhang
- The Center for Growth, Metabolism and Aging, College of Life Sciences, Sichuan University, Chengdu 610065, China; (C.Z.); (H.Y.); (L.P.); (G.Z.); (R.Z.); (T.Z.); (Z.X.); (Y.T.)
| | - Zhixiong Xiao
- The Center for Growth, Metabolism and Aging, College of Life Sciences, Sichuan University, Chengdu 610065, China; (C.Z.); (H.Y.); (L.P.); (G.Z.); (R.Z.); (T.Z.); (Z.X.); (Y.T.)
| | - Ying Tong
- The Center for Growth, Metabolism and Aging, College of Life Sciences, Sichuan University, Chengdu 610065, China; (C.Z.); (H.Y.); (L.P.); (G.Z.); (R.Z.); (T.Z.); (Z.X.); (Y.T.)
| | - Yi Zhang
- China West Hospital, Sichuan University, Chengdu 610065, China;
| | - Richard Hu
- Olive View-UCLA Medical Center, Los Angeles, CA 90001, USA;
| | | | - Yuan-Ping Han
- The Center for Growth, Metabolism and Aging, College of Life Sciences, Sichuan University, Chengdu 610065, China; (C.Z.); (H.Y.); (L.P.); (G.Z.); (R.Z.); (T.Z.); (Z.X.); (Y.T.)
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