Table 1.
Summary of papers in the Special Issue, arranged by topic as pertaining to mitochondrial dysfunction.
| Authors | Title | Topics/Keywords | Type |
|---|---|---|---|
| Ahmed et al. [2] | Genes and Pathways Involved in Adult Onset Disorders Featuring Muscle Mitochondrial DNA Instability | mtDNA Maintenance; Mitochondrial Disorders | Review |
| Arnould et al. [3] | Mitochondria Retrograde Signaling and the UPRmt: Where Are We in Mammals? | Unfolded Protein Response; Cell Signaling | Review |
| Ding et al. [4] | Borrowing Nuclear DNA Helicases to Protect Mitochondrial DNA | DNA Replication and Repair; Diseases | Review |
| Ross et al. [5] | Mitochondrial and Ubiquitin Proteasome System Dysfunction in Ageing and Disease: Two Sides of the Same Coin? | Ageing and Age-Related Diseases; Ubiquitin; Proteasome | Review |
| Crescenzo et al. [6] | Skeletal Muscle Mitochondrial Energetic Efficiency and Aging | Ageing; Skeletal Muscle | Review |
| Tricarico et al. [7] | Mevalonate Pathway Blockade, Mitochondrial Dysfunction and Autophagy: A Possible Link | Cholesterol Synthesis; Autophagy; Inflammation | Review |
| Zhang et al. [8] | Autophagy as a Regulatory Component of Erythropoiesis | Autophagy; Erythroid Differentiation | Review |
| Mikhed et al. [9] | Mitochondrial Oxidative Stress, Mitochondrial DNA Damage and Their Role in Age-Related Vascular Dysfunction | Ageing; Cardiovascular Diseases; Oxidative Stress | Review |
| Vaitkus et al. [10] | Thyroid Hormone Mediated Modulation of Energy Expenditure | Thyroid Hormone; Energy Expenditure | Review |
| Forini et al. [11] | Low T3 State Is Correlated with Cardiac Mitochondrial Impairments after Ischemia Reperfusion Injury: Evidence from a Proteomic Approach | Thyroid Hormone; Cardiac Ischemia and Reperfusion; Proteomics | Article |
| Forini et al. [12] | Mitochondria as Key Targets of Cardioprotection in Cardiac Ischemic Disease: Role of Thyroid Hormone Triiodothyronine | Cardiac Ischemia; Thyroid Hormone; Cardioprotection | Review |
| Cimolai et al. [13] | Mitochondrial Mechanisms in Septic Cardiomyopathy | Septic Cardiomyopathy; Mitophagy | Review |
| Baburamani et al. [14] | Mitochondrial Optic Atrophy (OPA) 1 Processing Is Altered in Response to Neonatal Hypoxic-Ischemic Brain Injury | Hypoxia-Ischemia; Brain Injury | Article |
| Luo et al. [15] | Mitochondria: A Therapeutic Target for Parkinson’s Disease? | Parkinson’s Disease; Mitochondrial Dynamics | Review |
| Kim et al. [16] | The Role of Mitochondrial DNA in Mediating Alveolar Epithelial Cell Apoptosis and Pulmonary Fibrosis | Pulmonary Fibrosis; Sirtuins | Review |
| Pagano et al. [17] | Current Experience in Testing Mitochondrial Nutrients in Disorders Featuring Oxidative Stress and Mitochondrial Dysfunction: Rational Design of Chemoprevention Trials | Mitochondrial Co-Factors as Therapeutics | Review |
| Modica-Napolitano et al. [18] | Treatment Strategies that Enhance the Efficacy and Selectivity of Mitochondria-Targeted Anticancer Agents | Cancer; Combination Therapy | Review |
| Zhang et al. [19] | Targeting Mitochondrial Function to Treat Quiescent Tumor Cells in Solid Tumors | Cancer; Cancer Therapies | Review |
| Kohno et al. [20] | Mitochondrial Transcription Factor A and Mitochondrial Genome as Molecular Targets for Cisplatin-Based Cancer Chemotherapy | mtTFAM; Cancer Chemotherapy | Review |
| Wang et al. [21] | Mitochondria-Derived Reactive Oxygen Species Play an Important Role in Doxorubicin-Induced Platelet Apoptosis | Chemotherapy Agent (Doxorubicin); Oxidative Stress | Article |
| Wang et al. [22] | Abnormal Mitochondrial Function and Impaired Granulosa Cell Differentiation in Androgen Receptor Knockout Mice | Androgen Receptor; Reproduction | Article |