[The influence of peptides on the chondrogenic differentiation of human mesenchymal stem cells during replicative aging.]

Osteoarthritis is a widespread age-related disease, that has no effective targeted therapy. In this regard, bioengineering methods are being actively developed that can stimulate the restoration of cartilage tissue. These methods include chondrogenic differentiation of stem cells, which is stimulated by various biomolecules, including short peptides and polypeptide complexes. It was studied the effect of the cartilage polypeptide complex (CPC) and AED peptide on gene expression and protein synthesis of chondrogenic differentiation - SOX9, aggrecan, type II collagen and COMP - in human mesenchymal stem cell (MSC) during replicative aging. AED peptide at the concentration of 200 ng/ml activates gene expression and protein synthesis during aging of MSCs. CPC has the same effect in the concentration 2000 ng/ml. These data indicate the stimulating effect of studied peptides on regulation of chondrogenesis and open up prospects for further investigation of their effectiveness in osteoarthritis models.

[Secretory phenotype of the human endothelial cells associated with replicative and induced aging.]

The aging-associated secretory phenotype (SASP) is a heterogeneous phenotype of cells secreting pro-inflammatory cytokines, growth factors, apoptosis' regulatory molecules, and proteases. SASP is one of the three main hallmarks of senescent cells. Dysregulation of the synthesis of SASP-forming molecules leads to the development of age-associated diseases, including cardiovascular pathology. The aim of this study is to characterize the SASP of human endotheliocytes during replicative and induced aging. Isolated human umbilical vein endothelial cells HUVEC were used to model replicative and inflammation-induced aging. It has been established that the molecules that form SASP during replicative and inflammation-induced aging of HUVEC are molecules that control apoptosis (p16, p21, p53), adhesion (E-selectin, VCAM-1) and some cytokines (IL-1ß, IL-6). With replicative aging of endotheliocytes, the synthesis of apoptosis' regulatory molecules increases to a greater extent. Inflammation-induced aging of HUVEC is characterized by a multiple increase in the synthesis of adhesion molecules and pro-inflammatory cytokines.

[Senescence-associated secretory phenotype and inflammaging: the role in cardiovascular diseases.]

Senescent cells take part into development the age-related diseases by formation the SASP: senescence-associated secretory phenotype. SASP is characterized by synthesis of signal molecules include proinflammatory cytokines. SASP promotes the inflammaging - chronic, low-grade, subclinical inflammatory process, that is the one of cardio-vascular diseases risk factor in older age-groups. In the review we describe the key SASP molecules of cardiomyocytes, endotheliocytes and vascular smooth muscle cells and its role in the pathogenesis of age-associated cardiovascular diseases.

[Short peptides: regulation of skin function during aging.]

Short peptides are applied for supporting skin function during ageing, because they can permeate the intact stratum corneum of the epidermis and affect the cells of the dermis. Short peptides are part of natural metabolism of cells and many of them have geroprotective properties. In the review we are considering the base sorts of peptides that are used for normalized skin fibroblasts function: matrikines, carnosine, collagen peptides, cytokine and growth factor analogs, defensins, immunoprotective peptides and polyfunctional peptides. Polyfunctional peptides (AcSDKP, KED, AEDG, AED) have geroprotective properties, slow apoptosis and stimulate skin cell proliferation, also increase functional activity of skin fibroblasts, normalize intracellular matrix hemostasis. Polyfunctional peptides are the antioxidants and immunoprotectors and can activate microcirculation in dermis. Peptide regulation of skin function during ageing are the fast-developing and prospective area in molecular gerontology.

[Aging of skin fibroblasts: genetic and epigenetic factors.]

Gerontocosmetology is the rapid developing knowledge area that has a very large applied meaning. Herewith a lot of information about skin aging and geroprotectors for skin rejuvenation hasn't a scientific background. Thus, understanding the fundamental mechanisms of skin aging becomes the actual task of molecular gerontology. Skin fibroblasts are the polyfunctional cell population that synthesize a number of biologically active substances and participate in maintaining of extracellular matrix homeostasis, skin hydratation and endocrine and immune function. In the review genetic (accumulation of nuclear and mitochondrial DNA mistakes) and epigenetic factors of skin fibroblasts aging are described. Role of AP-1, NF-κB, c-jun, CCN1, TGF-ß, TNF-α, MMP-1, MMP-3, MMP-8, MMP-9 and glycation in skin fibroblasts aging are discussed. There are some data about decreasing of skin fibroblasts ability to migration and synthesis of paxillins and aquaporin-3 (AQP3) during aging. Role of hormonal regulation in skin fibroblasts aging are described. Geroprotective action of melatonin to skin fibroblasts are showed. Reviewed molecular-cellular aspects of skin fibroblasts aging can be take into consideration for scientific background of using of cosmetic products for retarding of skin aging rate.