Abstract: Methods are provided herein for selectively killing senescent cells and for treating senescence-associated diseases and disorders by administering a senolytic agent. Senescence-associated diseases and disorders treatable by the methods using the senolytic agents described herein include cardiovascular diseases and disorders associated with or caused by arteriosclerosis, such as atherosclerosis; idiopathic pulmonary fibrosis; chronic obstructive pulmonary disease; osteoarthritis; senescence-associated ophthalmic diseases and disorders; and senescence-associated dermatological diseases and disorders.

Abstract: This invention establishes a new paradigm for treatment of Parkinson's disease (PD) by eliminating senescent cells that reside in or around the site of the disease pathophysiology. Exposure of test subjects to the herbicide paraquat (PQ) increases the risk for developing Parkinson's disease. The data in this disclosure show that PQ induces a senescence arrest and SASP in astrocytes, in culture and in vivo in mice, and senescent cell markers were present in astrocytes in midbrain tissue from PD patients. In a transgenic mouse model, senescent cell ablation protected against PQ-induced PD-like neuropathology. Removal of senescent cells from affected sites using small molecule agents that specifically target senescent cells can help prevent or ameliorate signs and symptoms of the disease.

Abstract: The present disclosure relates to a device for facilitating hand gripping in sporting and other manual activities. The device comprises a foldable substrate. The foldable substrate comprises a main section and a plurality of flaps extending from the main section. A lower surface of the foldable substrate comprises an adhesive configured to releasably stick to human skin. The device further comprises a releasable layer covering the adhesive, the releasable layer including a main portion opposite from the main section of the foldable substrate and a flap portion opposite from each of the plurality of flaps of the foldable substrate.

Abstract: A display, securing and transporting device can be used with many types of footwear, including boots, dress shoes, sandals, cleats, high heeled shoes and casual shoes. The device comprises a first elastic body adapted to retainingly and releasably engage a perimeter of a first one of a pair of footwear. The first elastic body defines a toe receiving portion and a heel receiving portion; and a lateral band connects the toe receiving portion and the heel receiving portion. A second elastic body is adapted to retaining and releasably engage a perimeter of a second one of a pair of footwear. The first elastic body and the second elastic body are coaligned and attached to one another at their respective lateral bands. A mounting means is provided on the device to receive a hanger.

Abstract: Methods are provided herein for selectively killing senescent cells and for treating senescence-associated diseases and disorders by administering a senolytic agent. Senescence-associated diseases and disorders treatable by the methods using the senolytic agents described herein include cardiovascular diseases and disorders associated with or caused by arteriosclerosis, such as atherosclerosis; idiopathic pulmonary fibrosis; chronic obstructive pulmonary disease; osteoarthritis; senescence-associated ophthalmic diseases and disorders; and senescence-associated dermatological diseases and disorders.

Abstract: This invention establishes a new paradigm for treatment of Parkinson's disease (PD) by eliminating senescent cells that reside in or around the site of the disease pathophysiology. Exposure of test subjects to the herbicide paraquat (PQ) increases the risk for developing Parkinson's disease. The data in this disclosure show that PQ induces a senescence arrest and SASP in astrocytes, in culture and in vivo in mice, and senescent cell markers were present in astrocytes in midbrain tissue from PD patients. In a transgenic mouse model, senescent cell ablation protected against PQ-induced PD-like neuropathology. Removal of senescent cells from affected sites using small molecule agents that specifically target senescent cells can help prevent or ameliorate signs and symptoms of the disease.

Abstract: Methods are provided herein for selectively killing senescent cells and for treating senescence-associated diseases and disorders by administering a senolytic agent. Senescence-associated diseases and disorders treatable by the methods using the senolytic agents described herein include cardiovascular diseases and disorders associated with or caused by arteriosclerosis, such as atherosclerosis; idiopathic pulmonary fibrosis; chronic obstructive pulmonary disease; osteoarthritis; senescence-associated ophthalmic diseases and disorders; and senescence-associated dermatological diseases and disorders.

Abstract: Methods are provided herein for selectively killing senescent cells and for treating senescence-associated diseases and disorders by administering a senolytic agent. Senescence-associated diseases and disorders treatable by the methods using the senolytic agents described herein include cardiovascular diseases and disorders associated with or caused by arteriosclerosis, such as atherosclerosis; idiopathic pulmonary fibrosis; chronic obstructive pulmonary disease; osteoarthritis; senescence-associated ophthalmic diseases and disorders; and senescence-associated dermatological diseases and disorders.

Abstract: Methods are provided herein for selectively killing senescent cells and for treating senescence-associated diseases and disorders by administering a senolytic agent. Senescence-associated diseases and disorders treatable by the methods using the senolytic agents described herein include cardiovascular diseases and disorders associated with or caused by arteriosclerosis, such as atherosclerosis; idiopathic pulmonary fibrosis; chronic obstructive pulmonary disease; osteoarthritis; senescence-associated ophthalmic diseases and disorders; and senescence-associated dermatological diseases and disorders.

Abstract: Senescent cell medicine encompasses the paradigm that many conditions that are associated with aging or tissue damage are caused or mediated by senescent cells. This disclosure shows that HSP90, pI3-kinase, proteasome, HDAC, and p97 pathways are all active in senescent cells, and can be used as an effective means for removing senescent cells from a target tissue. Exemplary inhibitors of each of these pathways are provided. Also provided is a new genus of p97 inhibitor molecules. The structure includes a core 4 amino pyrimidine ring system, substituted at the 2 position with a nitrogen atom of an amino substituent or a N heterocycle. The 4 amino substituent of the core ring system is optionally linked to a substituted phenyl group. Any of the inhibitors referred to in this disclosure can be screened for senolytic activity and developed for the treatment of conditions such as osteoarthritis, ophthalmic disease, pulmonary disease, and atherosclerosis.

Abstract: This invention is based on the discovery that many lung diseases associated with aging are mediated at least in part by cells bearing a senescent phenotype. Senescent cells accumulate with age, and express factors that contribute to the pathophysiology of age related conditions. The severity of age-related conditions typically correlates with the abundance of senescent cells: thus, clearing senescent cells can help abrogate the condition: providing symptomatic relief, and potentially inhibiting disease progression. In accordance with this invention, a family of Bcl protein inhibitors has been developed for the treatment of lung diseases. These senolytic agents have an appropriate dose and specificity profile to be effective in the clinical management of previously intractable pulmonary diseases.

Abstract: A library of heterocyclic compounds has been screened to identify particular compounds that have high inhibitory capacity for the Bcl family of regulatory proteins. Compounds identified as Bcl antagonists have been further screened to select pharmaceutical agents with both high potency and high specificity for eliminating senescent cells in comparison with replicative or quiescent cells of the same tissue type. Particular structures are identified in this disclosure that eliminate senescent cells with an EC50 in the nanomole range and a specificity around or above 100-fold. In accordance with this invention, heterocyclic compounds provided in this disclosure can be formulated for the treatment of a range of age-related conditions caused or mediated by senescent cells. Such conditions are exemplified by ophthalmic conditions, pulmonary conditions, and osteoarthritis.

Abstract: Disclosed herein are compounds that are effective for treatment of various disease states. Dosing includes both single administration and regimens of cycling dosages.

Abstract: This invention is based on the discovery that many lung diseases associated with aging are mediated at least in part by cells bearing a senescent phenotype. Senescent cells accumulate with age, and express factors that contribute to the pathophysiology of age related conditions. The severity of age-related conditions typically correlates with the abundance of senescent cells: thus, clearing senescent cells can help abrogate the condition: providing symptomatic relief, and potentially inhibiting disease progression. In accordance with this invention, a family of Bcl protein inhibitors has been developed for the treatment of lung diseases. These senolytic agents have an appropriate dose and specificity profile to be effective in the clinical management of previously intractable pulmonary diseases.

Abstract: The proteasome inhibitors of this invention include peptide-based compounds with a short linear sequence of amino acids. An oxo or thio group is attached to the N-terminal amino acid. A protein-reactive electrophilic group such as an epoxyketone, an aziridinylketone, or a beta-lactone is attached to the C-terminal amino acid. Upon contact with a proteasome complex in a target cell, the electrophilic group reacts with a functional group in or near a binding pocket or active site of the proteasome, forming a covalent bond and thereby inactivating the proteasome. These and other proteasome inhibitors can be screened for binding affinity and an ability to selectively eliminate senescent cells or cancer cells. Compounds that selectively remove senescent cells can be developed for the treatment of conditions such as osteoarthritis, ophthalmic disease, pulmonary disease, and atherosclerosis.

Abstract: This disclosure provides non-human animal models for age-related disorders and age-sensitive traits, particularly those caused by senescence-inducing stimuli, wherein the models comprise transgenes selectively expressed by senescent cells. The disclosure further provides methods for identifying therapeutic agents effective for treating or preventing age-related disorders and age-sensitive traits using the animal models, therapeutic agents identified using such methods, pharmaceutical compositions comprising the identified therapeutic agents, and methods of treating or preventing age-related disorders and age-sensitive traits.

Abstract: A child-supporting harness comprises a harness portion and a child-carrying portion. The harness portion comprises a dorsal member having an upper section and a lower section; a waist strap depending from the lower section of the dorsal member; a pair of shoulder straps depending from the upper section of the dorsal member; and a pair of torso straps selectively attached to the dorsal member between the upper section and the lower section thereof. The child-carrying pouch is releasably secured to the harness portion.

Abstract: Methods are provided herein for selectively killing senescent cells and for treating senescence-associated diseases and disorders by administering a senolytic agent. Senescence-associated diseases and disorders treatable by the methods using the senolytic agents described herein include cardiovascular diseases and disorders associated with or caused by arteriosclerosis, such as atherosclerosis; idiopathic pulmonary fibrosis; chronic obstructive pulmonary disease; osteoarthritis; senescence-associated ophthalmic diseases and disorders; and senescence-associated dermatological diseases and disorders.

Abstract: The proteasome inhibitors of this invention include peptide-based compounds with a short linear sequence of amino acids. An oxo or thio group is attached to the N-terminal amino acid. A protein-reactive electrophilic group such as an epoxyketone, an aziridinylketone, or a beta-lactone is attached to the C-terminal amino acid. Upon contact with a proteasome complex in a target cell, the electrophilic group reacts with a functional group in or near a binding pocket or active site of the proteasome, forming a covalent bond and thereby inactivating the proteasome. These and other proteasome inhibitors can be screened for binding affinity and an ability to selectively eliminate senescent cells or cancer cells. Compounds that selectively remove senescent cells can be developed for the treatment of conditions such as osteoarthritis, ophthalmic disease, pulmonary disease, and atherosclerosis.

Abstract: Methods are provided herein for selectively killing senescent cells and for treating senescence-associated diseases and disorders by administering a senolytic agent. Senescence-associated diseases and disorders treatable by the methods using the senolytic agents described herein include cardiovascular diseases and disorders associated with or caused by arteriosclerosis, such as atherosclerosis; idiopathic pulmonary fibrosis; chronic obstructive pulmonary disease; osteoarthritis; senescence-associated ophthalmic diseases and disorders; and senescence-associated dermatological diseases and disorders.