Sultan Almuntashiri scite author profile

Club cell secretory protein (CC16) is encoded by the SCGB1A1 gene. It is also known as CC10, secretoglobin, or uteroglobin. CC16 is a 16 kDa homodimeric protein secreted primarily by the non-ciliated bronchial epithelial cells, which can be detected in the airways, circulation, sputum, nasal fluid, and urine. The biological activities of CC16 and its pathways have not been completely understood, but many studies suggest that CC16 has anti-inflammatory and anti-oxidative effects. The human CC16 gene is located on chromosome 11, p12-q13, where several regulatory genes of allergy and inflammation exist. Studies reveal that factors such as gender, age, obesity, renal function, diurnal variation, and exercise regulate CC16 levels in circulation. Current findings indicate CC16 not only may reflect the pathogenesis of pulmonary diseases, but also could serve as a potential biomarker in several lung diseases and a promising treatment for chronic obstructive pulmonary disease (COPD). In this review, we summarize our current understanding of CC16 in pulmonary diseases.

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The Roles of CCN1/CYR61 in Pulmonary Diseases

Zhu

Almuntashiri

Han

et al. 2020

IJMS

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CCN1 (cysteine-rich 61, connective tissue growth factor, and nephroblastoma-1), previously named CYR61 (cysteine-rich angiogenic inducer 61) belongs to the CCN family of matricellular proteins. CCN1 plays critical roles in the regulation of proliferation, differentiation, apoptosis, angiogenesis, and fibrosis. Recent studies have extensively characterized the important physiological and pathological roles of CCN1 in various tissues and organs. In this review, we summarize both basic and clinical aspects of CCN1 in pulmonary diseases, including acute lung injury (ALI), chronic obstructive pulmonary disease (COPD), lung fibrosis, pulmonary arterial hypertension (PAH), lung infection, and lung cancer. We also emphasize the important challenges for future investigations to better understand the CCN1 and its role in physiology and pathology, as well as the questions that need to be addressed for the therapeutic development of CCN1 antagonists in various lung diseases.

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Nebulization of extracellular vesicles: A promising small RNA delivery approach for lung diseases

Han

Zhu

Youngblood

et al. 2022

Journal of Controlled Release

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CC16 Regulates Inflammation, ROS Generation and Apoptosis in Bronchial Epithelial Cells during Klebsiella pneumoniae Infection

Almuntashiri

Han

Zhu

et al. 2021

IJMS

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Gram-negative (G-) bacteria are the leading cause of hospital-acquired pneumonia in the United States. The devastating damage caused by G- bacteria results from the imbalance of bactericidal effects and overwhelming inflammation. Despite decades of research, the underlying mechanisms by which runaway inflammation is developed remain incompletely understood. Clara Cell Protein 16 (CC16), also known as uteroglobin, is the major protein secreted by Clara cells and the most abundant protein in bronchoalveolar lavage fluid (BALF). However, the regulation and functions of CC16 during G- bacterial infection are unknown. In this study, we aimed to assess the regulation of CC16 in response to Klebsiella pneumoniae (K. pneu) and to investigate the role of CC16 in bronchial epithelial cells. After K. pneu infection, we found that CC16 mRNA expression was significantly decreased in bronchial epithelial cells. Our data also showed that K. pneu infection upregulated cytokine and chemokine genes, including IL-1β, IL-6, and IL-8 in BEAS-2B cells. Endogenously overexpressed CC16 in BEAS-2B cells provided an anti-inflammatory effect by reducing these markers. We also observed that endogenous CC16 can repress NF-κB reporter activity. In contrast, the recombinant CC16 (rCC16) did not show an anti-inflammatory effect in K. pneu-infected cells or suppression of NF-κB promoter activity. Moreover, the overexpression of CC16 reduced reactive oxygen species (ROS) levels and protected BEAS-2B cells from K. pneu-induced apoptosis.

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Extracellular vesicle-encapsulated CC16 as novel nanotherapeutics for treatment of acute lung injury

et al. 2023

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The Potential of Lung Epithelium Specific Proteins as Biomarkers for COVID-19-Associated Lung Injury

et al. 2021

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Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) infection was first reported in Wuhan, China, and was declared a pandemic by the World Health Organization (WHO) on 20 March 2020. The respiratory system is the major organ system affected by COVID-19. Numerous studies have found lung abnormalities in patients with COVID-19, including shortness of breath, respiratory failure, and acute respiratory distress syndrome. The identification of lung-specific biomarkers that are easily measurable in serum would be valuable for both clinicians and patients with such conditions. This review is focused on the pneumoproteins and their potential to serve as biomarkers for COVID-19-associated lung injury, including Krebs von den Lungen-6 (KL-6), surfactant proteins (SP-A, SP-B, SP-C, SP-D), and Clara cell secretory protein (CC16). The current findings indicate the aforementioned pneumoproteins may reflect the severity of pulmonary manifestations and could serve as potential biomarkers in COVID-19-related lung injury.

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Dysregulation of miR-103a Mediates Cigarette Smoking–induced Lipid-laden Macrophage Formation

Zhu

Han

Almuntashiri

et al. 2022

Am J Respir Cell Mol Biol

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Club Cell Secretory Protein–Derived Acute Respiratory Distress Syndrome Phenotypes Predict 90-Day Mortality: A Reanalysis of the Fluids and Catheter Treatment Trial

Chase

Almuntashiri²,

Sikora

et al. 2022

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OBJECTIVES: Club cell secretory protein (CC16) is a protein with potential utility as a lung-specific biomarker for acute respiratory distress syndrome. The purpose of this study was to characterize CC16 in plasma from patients enrolled in the Fluid and Catheter Treatment Trial (FACTT) to determine the prognostic value for patient outcomes in our subgroup of FACTT patients. DESIGN: A secondary biomarker analysis of a prospective randomized-controlled trial. The primary outcome was area under the receiver operating characteristic (AUROC) of CC16 for prediction of 90-day mortality. Secondary outcomes included differences in mortality, length of stay, and ventilator-free days (VFDs) between patients with high and low CC16. Statistical analyses were performed with IBM SPSS Statistics. SETTING: Single-center laboratory analysis. SUBJECTS: Plasma samples from 68 FACTT subjects and 20 healthy controls. INTERVENTIONS: CC16 was measured in patient plasma samples by enzyme-linked immunosorbent assay. MEASUREMENTS AND MAIN RESULTS: Subjects were an average of 48 years old (sd, 16.7 yr old) and 51.5% male. AUROC analysis of CC16 on day 1 showed an area under the ROC curve of 0.78 for prediction of mortality (odds ratio, 1.011; 95% CI, 1.003–1.021) with an optimal cutoff value of 45 ng/mL. Patients in the low CC16 group (<45 ng/mL) had lower mortality (7.5 vs 50.0%; p < 0.001) and similar VFD (11.9 vs 13.2; p = 0.638). When stratified by CC16 concentration, there was no difference between mortality in the fluid liberal (36.4 vs 58.8%; p = 0.256) or conservative (4.3 vs 11.8%; p = 0.366) groups. CONCLUSIONS: CC16 demonstrated an acceptable AUROC for prediction of patient mortality with a cut point of 45 ng/mL. Patients with high CC16 on day 1 had worse outcomes compared with those with low CC16, suggesting a prognostic role for this lung-specific biomarker.

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