Loss of proteostasis and cellular senescence have been previously established as characteristics of aging, however their interaction in the context of lung aging and potential contributions to aging-associated lung remodeling remains understudied. In this study we aimed to characterize endoplasmic reticulum (ER) stress response, cellular senescence, and their interaction in relation to extracellular matrix (ECM) production in lung fibroblasts from young (25-45 years) and old (>60 years) humans. Fibroblasts from young and old patients without significant preexisting lung disease were exposed to vehicle, MG132, etoposide or salubrinal. Afterwards, cells and cell lysates or supernatants were analyzed for ER stress, cellular senescence and ECM changes using protein analysis, proliferation assay and senescence-associated beta galactosidase (SA-β-Gal) staining. At baseline, fibroblasts from aging individuals showed increased levels of ER stress (ATF6 and PERK), senescence (p21 and McL-1) and ECM marker (COL1A1) compared to those from young individuals. Upon ER stress induction and etoposide exposure, fibroblasts showed an increase in senescence (SA-β-Gal, p21, Cav-1), ER stress (PERK) and ECM markers (COL1A1 and LUM) compared to vehicle. Additionally, CXCL8 and IL-6 levels were increase in the supernatants of MG132 and etoposide-treated fibroblasts, respectively. Finally, the ER stress inhibitor salubrinal decreased the expression of p21 compared to vehicle and MG132 treatments, however salubrinal inhibited COL1A1 but not p21 expression in MG132-treated fibroblasts. Our study suggests that ER stress response plays an important role in establishment and maintenance of a senescence phenotype in lung fibroblasts and therefore contributes to altered remodeling in the aging lung.