科研医学美图PPT细胞生物学与组织学素材模板Tissues

《医学细胞生物学课件》ppt大纲CONTENTS •细胞生物学概述•细胞的基本结构与功能•细胞的物质代谢与能量转换•细胞的生长、增殖与分化•细胞的遗传、变异与进化•细胞信号传导与细胞通讯•细胞免疫与疾病防御细胞生物学概述01细胞生物学的定义与研究对象细胞生物学的定义研究细胞结构、功能、发生、发展及细胞间相互作用的科学。

研究对象包括原核细胞、真核细胞、病毒等各类生物细胞及其组分。

细胞生物学的发展历史与现状发展历史从细胞学说的建立到现代细胞生物学的形成，经历了漫长的探索过程。

现状随着现代科技手段的不断进步，细胞生物学研究已经深入到分子水平，并与其他学科交叉融合，形成了多个分支领域。

细胞生物学在医学领域的重要性基础医学揭示生命现象的本质和规律，为医学提供理论基础。

临床医学为疾病的预防、诊断和治疗提供科学依据和技术支持。

转化医学促进基础研究成果向临床应用转化，推动医学发展。

细胞的基本结构与功能02细胞膜的主要成分：脂质、蛋白质和糖类细胞膜的结构特点：流动性、选择透过性细胞膜的功能：物质运输、信息传递、能量转换、细胞识别等细胞质的主要成分：水、无机盐、有机物等细胞质的结构特点：胶态、流动性细胞质的功能：新陈代谢、遗传信息表达、细胞器定位等细胞核的主要成分DNA、蛋白质、RNA等细胞核的结构特点核膜、核仁、染色质等细胞核的功能遗传信息储存、复制和转录，细胞代谢和遗传的控制中心等03核糖体蛋白质合成的场所01线粒体细胞呼吸和能量转换的中心02叶绿体光合作用的场所高尔基体溶酶体蛋白质分类、包装和运输的场所细胞内消化和防御的场所蛋白质加工、运输和脂质合成的场所内质网液泡调节细胞内环境稳定和物质储存的场所中心体与细胞有丝分裂有关的场所细胞的物质代谢与能量转换03涉及脂肪酸的合成与分解、甘油三酯的代谢等，与细胞膜的构成和信号传导密切相关。

01020304包括糖酵解、糖异生和糖原合成与分解等过程，是细胞获取能量的主要途径。

235123431413124331512316B l o o d V e s s e l s ,B l o o d a n d I m m u n e S y s t e m236B l o o d V e s s e l s ,B l o o d a n d I m m u n e S y s t e m317ThymusHassall corpuscles 2are characteristic elements of the thymus medulla.They consist of several concentric layers of reticulum cells in an arrangement reminiscent of an onion.The reticulum cells often show hyaline degener-ation.Therefore,they occasionally look homogeneous and stain intensely with eosin.Cysts may form as well.A remarkably enlarged epithelial reticu-lum cell usually occupies the center of the Hassall corpuscle.Medulla cells form a layer around this center.The diameter of Hassall corpuscles is 20–500μm (cf.Figs.315,316).Their function is unknown.They may arise from ectodermal tissue because analytical data show prekeratin and keratin in their cells,similar to the cells of the epidermis.Several epithelial thymus cells biosynthesize substances,which presumably have hormone character.Known,well-defined substances are thymosin ,thy-mopoietin and thymulin ,among others.1Hassall corpuscle 2CortexStain:alum hematoxylin-eosin;magnification:×240318ThymusThe specific thymus tissue organization slowly disappears in puberty (pub-erty involution ).In the adult thymus,lobules are no longer present.Then the fatty involution ensues (age involution ),which initially affects the cortex more than the medulla.Finally,the residual thymus organ consists mainly of degenerated medullary tissue strands.Note the enormous increase in adi-pose tissue 1(cf.Fig.319).1Adipose tissue2Medulla with Hassall corpuscle 3Residual cortex tissueStain:alum hematoxylin-eosin;magnification:×30319ThymusPhysiological changes in the course of human aging lead to almost complete degeneration of the thymus (age involution ).In the process,the cortex 1becomes deplete of lymphocytes.The strands of tissue in the medulla become smaller and reticular connective tissue invades from the outside,to be replaced by adipose tissue 2.The result of this involution process is a re-sidual thymus with mostly adipose tissue (adipose thymus organ )(cf.Fig.318).At this stage,only scarce remnants of the specific organ tissue are left.1Residual thymus,cortex 2Adipose tissue 3Hassall corpusclesStain:alum hematoxylin-eosin;magnification:×102371213173213183132319B l o o d V e s s e l s ,B l o o d a n d I m m u n e S y s t e m238B l o o d V e s s e l s ,B l o o d a n d I m m u n e S y s t e m320Lymph NodesLymph nodes,nodi lymphatici ,are oval or bean-shaped organs.They function as biological filters in the lymphatic circulation.Their sizes may range be-tween several millimeters to more than 2centimeters.They are encapsu-lated by connective tissue collagen fibers 1.Connective tissue divisions from the capsule,the trabeculae,extend into the interior node.Sporadic myocytes are found inside the capsule.Trabeculae form the basic skeleton of the organ.The finer network of reticulum cells and the argyrophilic fibers (reticular fibers)is interspersed with this skeleton.The web contains considerable numbers of lymphocytes and macrophages (lymphoreticular organ ).Lymph nodes consist of the cortex 2and inner medulla 3.Blood vessels enter at the hilus region,and efferent lymph vessels (vasa efferentia)from the lymph node exit at the hilus.Several afferent lymph vessels (vasa afferentia)pierce the capsule and bring lymph into the lymph node.The figure very clearly shows the heavily stained cortex and the lighter medulla.In the cortex,we see a large number of nodular follicles with germinal centers (lymphatic nodules ).Please,note the central medullary sinus 4(cf.Figs.321–326).Human inguinal lymphatic node.1Capsule2Cortex with secondary follicles (lymphatic nodules)3Medulla4Medullary sinusStain:alum hematoxylin-eosin;magnification:×20321Lymph NodesA small lymph node from a rabbit was injected with Indian ink.It is possible to clearly recognize the strong connective tissue capsule 1,the heavily stained cortex 2with lymphatic nodules and the lighter medulla 3as well as the finer branches of the arteries,which extend from the hilus region to the trabeculae,the medulla and,finally,to the cortex.1Capsule 3Medulla 2CortexTissue injection with Indian ink;stain:hemalum-eosin;magnification:×5322Lymph NodesSection of a lymph node.The surface is encased in a strong connective tissue capsule 1.Lymph vessels close to the lymph nodes (vasa afferentia)pierce this capsule and enter the outer cortical sinus (sinus marginalis)2,which is clearly accentuated as a lighter crevice between capsule and cortex with only a few lymphocytes.The marginal sinus is connected to the radial structure of the trabecular sinus,which ultimately leads to the central medullary sinus 3with its wider lumen.Lymphocyte-rich areas,named primary noduli,popu-late the cortex 4.The small piles of darker granules are carbon inclusions.1Capsule3Medullary sinus 2Marginal sinus4CortexStain:hemalum-eosin;magnification ×20239123413201233213412322B l o o d V e s s e l s ,B l o o d a n d I m m u n e S y s t e m240B l o o d V e s s e l s ,B l o o d a n d I m m u n e S y s t e m323Lymph NodesOuter region of a lymph node from the human axilla,with a relatively tough connective tissue capsule 1,marginal sinus 2and cortex 3(cf.Figs.321,322,324).Reticulum cells (sinus reticulum )and reticulum fibers are clearly visible in the marginal sinus .They traverse the marginal sinus and form a loose meshwork.Note the subcapsular cells,named mantle cells,which are similar to endothelial cells.Intermediary sinuses,which push through the compact cortical tissue,connect the marginal sinuses with the wide medul-lary sinuses.Lymphocytes are densely packed underneath the marginal sinus.They form a secondary follicle with a lymph corona 4and a germinal center 5.1Capsule2Marginal sinus 3Cortex4Lymph corona of the secondary follicle 5Germinal centerStain:alum hematoxylin-eosin;magnification:×200324Lymph NodesOuter zone of a human inguinal lymph node.The marginal sinus (sinus mar-ginalis )wraps around the lymph node immediately underneath the capsule 1like a shell (cf.Figs.320–323).Numerous afferent lymph vessels (vasa af-ferentia )discharge into this marginal sinus.Reticulum cells with many cyto-plasmic processes span the marginal sinus.Delicate collagen and reticulum fibers (here stained light blue)lend mechanic support to the cells.A follicle with many lymphocytes (a lymphatic nodule )3is shown in the lower half of the figure (see Fig.325).1Capsule2Marginal sinus 3Lymph follicleStain:azan;magnification:×400325Lymph NodesThe lymphocytes in the outer layer of the cortex occur condensed in ovoid or round nodes,called follicles or noduli lymphatici (see Fig.320).These follicles are the B-lymphocyte regions of the lymph node.The regions with T-lympho-cytes are the diffusely delimited paracortical zones.Cortical nodes solely consist of densely packed small and medium-sized lymphocytes.They are called primary follicles .This preparation presents a secondary follicle .Apart from small lymphocytes,it contains in its center large cells with basophilic cytoplasm (centrocytes and centroblasts ).These regions inside a follicle are called germinal centers 1.They arise from primary follicles during immu-nogenesis .A lymphocyte barrier (corona)2(cf.Fig.323)surrounds the ger-minal center of a secondary follicle.It predominantly consists of small lym-phocytes.Sporadically,plasma cells occur in the lymphocyte corona.1Germinal center2Lymphocyte corona (barrier)2411234532331232412325B l o o d V e s s e l s ,B l o o d a n d I m m u n e S y s t e m242B l o o d V e s s e l s ,B l o o d a n d I m m u n e S y s t e m326Lymph NodesSection of a medullary sinus from a feline lymph node.The medullary sinuses are located between medullary cords (cf.Figs.320,322).They con-nect to the marginal sinus via intermediary sinus (see Figs.323,324).Reticu-lum cells traverse the medullary sinus as well as the other lymph node sinuses.This creates a bow net system.Note the lacy web of the reticulum cells (stained light blue).Their structure is sponge-like.Lymphocytes,often macrophages,occasionally monocytes and plasma cells occur in the mesh-work.Stain:azan;magnification:×400327Lymph Vessels—Collector Lymph VesselsLymph vessel 1remind of thin-walled veins.They are lined by an endothe-lium (lymph endothelium 3,cf.Fig.306),which itself is covered by a delicate layer of connective tissue.There is no basal lamina (cf.Fig.306).With in-creasing size,the vessel wall also contains smooth muscle cells (transport vessels ).Lymph vessels are equipped with overlapping flap valves and intra-lymphatic funnel valves (lymphatic valve )2.The freely moving valve flaps stream with the lymph fluid (b).In the direction of the lymph flow,there are the following segments:extravascular lymph vessels,lymph capillaries,which usually form networks (rete lymphocapillare ),precollector lymph vessels (diameter ca.100μm),collector lymph vessels (diameter 150–600μm),lymphatic trunks and lymphatic ducts.This specimen is from the splenic capsule of a bovine fetus.1Lymph vessels2Intralymphatic (funnel)valve 3Lymphatic endothelial cellsStain:alum hematoxylin-eosin;magnifications:a)×120;b)×240328SpleenThe spleen is the largest lymphatic organ in the human body.It is enveloped by a collagen fiber capsule 1,which has a covering of peritoneal epithelium (top of the figure).Irregularly arranged connective tissue cords traverse the organ,starting at the outer capsule.They are named splenic trabeculae 2(al-most unstained in this preparation)and contain the trabecular blood vessels.Richly vascularized reticular connective tissue occupies the space between splenic capsule and trabeculae.The abundance of blood explains the name red spleen pulp 3for the flexible reticular web.The pulp contains splenic fol-licles 4(stained darker blue),which in their entirety represent the white pulp .This white pulp forms a reticular tissue with many lymphocytes,which surrounds the vessels like a sheath.Many of these vessels are cut longitudi-nally in this preparation.1Capsule2Spleen trabeculae with trabecular vein 3Red splenic pulp4Splenic nodule with central arteryStain:alum hematoxylin;magnification:×4243326121323ab3274213328B l o o d V e s s e l s ,B l o o d a n d I m m u n e S y s t e m。